2024

  1. Erik Schroedter and Michael Bonitz,
    Two-Time Quantum Fluctuations Approach and its Relation to the Bethe--Salpeter Equation,
    published online in phys. stat. sol. (b) (2024), paper is open access, link | arXiv:2312.15034
  2. Michael Bonitz, Jan-Philip Joost, Christopher Makait, Erik Schroedter, Tim Kalsberger, and Karsten Balzer
    Accelerating Nonequilibrium Green functions simulations: the G1-G2 scheme and beyond,
    submitted to phys. stat. sol. (b) (2023) | arXiv:2312.15030
  3. Michael Bonitz and Anatoly Zagorodny,
    Yuri L’vovich Klimontovich, his theory of fluctuations and its impact on the kinetic theory,
    published online in Contrib. Plasma Phys. (2024), article no. e202400014 | doi: 10.1002/ctpp.202400014 | arXiv:2402.08689
  4. Erik Schroedter and Michael Bonitz,
    Classical and Quantum Theory of Fluctuations for Many-Particle Systems out of Equilibrium,
    submitted for publication in Contrib. Plasma Phys. (2024) | arXiv:2402.05214
  5. Hanno Kählert,
    Dynamics of strongly correlated quantum systems from an extended STLS closure for the BBGKY hierarchy,
    submitted for publication in Contrib. Plasma Phys. (2024)
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2023

  1. H. Kählert and M. Bonitz,
    Dynamic structure factor and excitation spectrum of the one-component plasma: the case of weak to moderate magnetization,
    Contrib. Plasma Phys. e202200185 (2023)
    DOI: 10.1002/ctpp.202200185 | arXiv:2301.03425
    paper is open access
  2. Karsten Balzer, Niclas Schlünzen, Hannes Ohldag, Jan-Philip Joost, and Michael Bonitz,
    Accelerating Nonequilibrium Green functions simulations with embedding selfenergies,
    Phys. Rev. B 107, 155141 (2023)
    DOI: 10.1103/PhysRevB.107.155141 | arXiv:2211.09615
  3. Tobias Dornheim, Zhandos Moldabekov, Kushal ramakrishna, Panagiotis Tolias, Andrew Baczewski, Dominik Kraus, Thomas Preston, Dave Chapman, Maximilian Böhme, Tilo Doeppner, Frank Graziani, Michael Bonitz, Attila Cangi, and Jan Vorberger,
    Electronic Density Response of Warm Dense Matter,
    Phys. Plasmas 30 (3), 032705 (2023), DOI: 10.1063/5.0138955
    accepted manuscript | arXiv:2212.08326
    Paper has been selected by the journal as "Editor's Pick"
  4. C. Makait, F. Borges Fajardo, and M. Bonitz,
    Time-dependent charged particle stopping in quantum plasmas: testing the G1–G2 scheme for quasi-one-dimensional systems,
    Contrib. Plasma Phys. e202300008 (2023)
    DOI: 10.1002/ctpp.202300008 | arXiv:2302.06216
    paper is open access
    paper has been designated es "Editors' choice"
  5. M. Bonitz, W. Ebeling, A. Filinov, W.-D. Kraeft, R. Redmer and G. Röpke,
    Günter Kelbg, the Kelbg potential and its impact on quantum plasma theory,
    Contrib. Plasma Phys. 63, No. 3-4, e202300029 (2023), paper is open access, DOI: 10.1002/ctpp.202300029
  6. Stefan Donsa, Fabian Lackner, Joachim Burgdörfer, Michael Bonitz, Benedikt Kloss, Angel Rubio, and Iva Brezinova,
    Non-Equilibrium correlation dynamics in the one-dimensional Fermi-Hubbard model: A testbed for the two-particle reduced density matrix theory,
    Phys. Rev. Research 5, 033022 (2023) | doi.org/10.1103/PhysRevResearch.5.033022
  7. Paul Hamann, Linda Kordts, Alexey Filinov, Michael Bonitz, Tobias Dornheim, and Jan Vorberger,
    Prediction of a roton-type feature in warm dense hydrogen,
    Physical Review Research (2023) 5, No. 3, 033039 | DOI: 10.1103/PhysRevResearch.5.033039 | arXiv:2304.10807
    The paper has been selected as Editors' Suggestion, go to link | press release of Kiel University
  8. Erik Schroedter, Björn Jakob Wurst, Jan-Philip Joost, and Michael Bonitz,
    Quantum Fluctuations Approach to the Nonequilibrium GW-Approximation: Density Correlations and Dynamic Structure Factor,
    Phys. Rev. B 108, 205109 (2023) | local file | arXiv:2305.18956
  9. J. Beckers, J. Berndt, D. Block, M. Bonitz, P.J. Bruggeman, L. Couëdel, G.L. Delzanno, Y. Feng, R. Gopalakrishnan, F. Greiner, P. Hartmann, M. Horányi, H. Kersten, C.A. Knapek, U. Konopka, U. Kortshagen, E.G. Kostadinova, E. Kovačević, S.I. Krasheninnikov, I. Mann, D. Mariotti, L.S. Matthews, A. Melzer, M. Mikikian, V. Nosenko, M.Y. Pustylnik, S. Ratynskaia, R.M. Sankaran, V. Schneider, E.J. Thimsen, E. Thomas, H.M. Thomas, P. Tolias, and M. van de Kerkhof
    Physics and applications of dusty plasmas: The perspectives 2023,
    Physics of Plasmas 30 (12), 120601 (2023) | DOI: 10.1063/5.0168088 | local file
    Designated by the editors as Feature Article
  10. Alexey Filinov and Michael Bonitz,
    The equation of state of partially ionized hydrogen and deuterium plasma revisited,
    Phys. Rev. E 108(5), 055212 (2023)
    DOI: 10.1103/PhysRevE.108.055212 | local file | arXiv:2308.02314
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2022

  1. Zh. A. Moldabekov, T. Dornheim, G. Gregori, F. Graziani, M. Bonitz, and A. Cangi,
    The Quantum Bohm Potential for Many-Fermion Systems,
    SciPost Phys. 12, 062 (2022), paper is open access
    arXiv:2103.08523 | DOI: 10.21468/SciPostPhys.12.2.062
  2. F. Graziani, Zh. Moldabekov, B. Olson, and M. Bonitz,
    Shock Physics in Warm Dense Matter--a quantum hydrodynamics perspective,
    Contrib. Plasma Phys. 62(2), e202100170 (2022)
    DOI: 10.1002/ctpp.202100170 | arXiv:2109.09081
    paper is open access
  3. Lotte Borkowski, Niclas Schlünzen, Jan-Philip Joost, Franziska Reiser, and Michael Bonitz,
    Doublon production in correlated materials by multiple ion impacts,
    phys. stat. sol. (b) 259(4), 2100511 (2022) (paper is open access) DOI: 10.1002/pssb.202100511
    arXiv:2110.06644 | link
  4. T. Dornheim, J. Vorberger, Zh. A. Moldabekov, and M. Bonitz,
    Nonlinear electronic density response of the warm dense electron gas: multiple perturbations and mode coupling,
    Contrib. Plasma Phys. 62 (10), e202100247 (2022)
    DOI: 10.1002/ctpp.202100247 | arXiv:2110.12657
  5. H. Kählert and M. Bonitz,
    Dynamic structure factor of the magnetized one-component plasma: Crossover from weak to strong coupling,
    Phys. Rev. Research 4 (1), 013197 (2022) (open access)
    arXiv:2112.11981 | DOI: 10.1103/PhysRevResearch.4.013197
  6. T. Dornheim, G. Manfredi, and M. Bonitz,
    Preface of special issue "Quantum plasmas: kinetic theory and hydrodynamics", Contrib. Plasma Phys. 62, e2022800020 (2022),
  7. DOI: 10.1002/ctpp.202280020
  8. Anna Niggas, Janine Schwestka, Karsten Balzer, David Weichselbaum, Niclas Schlünzen, René Heller, Sascha Creutzburg, Heena Inani, Mukesh Tripathi, Carsten Speckmann, Niall McEvoy, Toma Susi, Jani Kotakoski, Ziyang Gan, Antony George, Andrey Turchanin, Michael Bonitz, Friedrich Aumayr, and Richard A. Wilhelm,
    "Ion-induced surface charge dynamics in freestanding monolayers of graphene and MoS2 probed by the emission of electrons",
    Phys. Rev. Lett. 129, 086802 (2022),
    DOI: 10.1103/PhysRevLett.129.086802
    Paper has been selected as editors' choice
    press release of CAU Kiel | press release of TU Vienna
  9. Jan-Philip Joost, Niclas Schlünzen, Hannes Ohldag, Michael Bonitz, Fabian Lackner, and Iva Brezinova
    The dynamically screened ladder approximation: Simultaneous treatment of strong electronic correlations and dynamical screening out of equilibrium,
    Phys. Rev. B 105 (16), 165155 (2022) | DOI: 10.1103/PhysRevB.105.165155 | arXiv:2202.10061
  10. Tobias Dornheim, Zhandos A. Moldabekov, Jan Vorberger, Hanno Kählert, and Michael Bonitz,
    Electronic pair alignment and roton feature in the warm dense electron gas (open access),
    Communications Physics 5, 304 (2022) | arXiv:2203.12288
  11. Erik Schroedter, Jan-Philip Joost, and Michael Bonitz,
    Quantum Fluctuations Approach to the Nonequilibrium GW approximation,
    DOI: 10.5488/CMP.25.23401
    Condensed Matter Physics 25 (2), 23401 (2022) | arXiv:2204.08250
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2021

  1. Zhandos A. Moldabekov, Tobias Dornheim, and Michael Bonitz,
    Screening of a test charge in a free-electron gas at warm dense matter and dense non-ideal plasma conditions,
    Contrib. Plasma Phys. 62(2), e202000176 (2021), paper is open access
    DOI: 10.1002/ctpp.202000176 | arXiv:2009.09180
  2. Hengyu Zhang, Shen Zhang, Dongdong Kang, Jiayu Dai, and Michael Bonitz,
    Finite temperature density functional theory investigation to the nonequilibrium transient warm dense matter state created by laser excitation,
    Phys. Rev. E 103, 013210 (2021),
    DOI: 10.1103/PhysRevE.103.013210 | arXiv:2009.04130
  3. Michael Bonitz, Werner Ebeling, and Vladimir Filinov
    In memoriam Vladimir Evgenevich Fortov,
    Contrib. Plasma Phys. 61(1), e202000262 (2021)
    DOI: 10.1002/ctpp.202000262
  4. Michael Bonitz and Ronald Redmer
    Vladimir E. Fortov (1946-2020),
    Contrib. Plasma Phys. 61(1), e202000126 (2021)
    DOI: 10.1002/ctpp.202000126
  5. J.-P. Joost, N. Schlünzen, S. Hese, M. Bonitz, C. Verdozzi, P. Schmitteckert, and M. Hopjan,
    Löwdin's symmetry dilemma within Green functions theory for the one-dimensional Hubbard model,
    Contrib. Plasma Phys. 61, e202000220 (2021), paper is open access
    DOI: 10.1002/ctpp.202000220,
    arXiv:2005.07651 | poster at APS March Meeting
    Article has been selected as Editors' choice.
    Figure 2 has been selected as cover picture for issue 62(2) of the journal
    Article is open access
  6. K. Hunger, T. Schoof, T. Dornheim, M. Bonitz, and A. Filinov,
    Momentum distribution function and short-range correlations of the warm dense electron gas -- ab initio quantum Monte Carlo results,
    Phys. Rev. E 103, 053204 (2021), paper is open access
    DOI: 10.1103/PhysRevE.103.053204 | arXiv:2101.00842
  7. Michael Bonitz,
    Editorial: Withstanding the Covid crisis,
    DOI: 10.1002/ctpp.2021200221
    Contrib. Plasma Phys. 61 (3), e202120021 (2021)
  8. Karsten Balzer and Michael Bonitz,
    Neutralization dynamics of slow highly charged ions passing through graphene nanoflakes - an embedding self-energy approach,
    Contrib. Plasma Phys. 62(2), e202100041 (2021), paper is open access
    DOI: 10.1002/ctpp.202100041 | arXiv:2103.05507
  9. T. Dornheim, M. Böhme, Zh. A. Moldabekov, J. Vorberger, and M. Bonitz,
    Density Response of the Warm Dense Electron Gas beyond Linear Response Theory: Excitation of Harmonics,
    Physical Review Research 3, 033231 (2021)
    link | arXiv:2104.02405
  10. A. Filinov, P.R. Levashov, and M. Bonitz,
    Thermodynamics of the uniform electron gas: fermionic path integral Monte Carlo simulations in the restricted grand canonical ensemble,
    Contrib. Plasma Phys. e202100112 (2021), paper is open access
    DOI: 10.1002/ctpp.202100112
  11. Igor Iosilievskii, Viktor Mintsev, Michael Bonitz, and Ronald Redmer,
    Preface to the special issue of CPP devoted to the memory of Vladimir E. Fortov,
    Contrib. Plasma Phys. 61, e202199001 (2021)
    DOI: 10.1002/ctpp.202199001
  12. Michael Bonitz und Jan-Philip Joost,
    Wigner-Kristall in zweidimensionalen Festkörpern?,
    Physik Journal 20, Heft 12, S. 20-21 (2021)
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2020

  1. Michael Bonitz,
    Editorial: Breakthrough for open access publishing in CPP,
    link
    Contrib. Plasma Phys. 60 (1), e201990024 (2020)
  2. N. Schlünzen, S. Hermanns, M. Scharnke, and M. Bonitz,
    Ultrafast Dynamics of Strongly Correlated Fermions -- Nonequilibrium Green Functions and Selfenergy Approximations,
    invited review, J. Phys.: Cond. Matt. 32 (10), 103001 (2020)
    paper is open access
    DOI: 10.1088/1361-648X/ab2d32
    journal link | arXiv:1902.07038 | supplement
  3. N. Schlünzen, J.-P. Joost, and M. Bonitz,
    Achieving the Scaling Limit for Nonequilibrium Green Functions Simulations,
    Phys. Rev. Lett. 124, 076601 (2020) | link | supplement
    DOI: 10.1103/PhysRevLett.124.076601
    local file | arXiv:1909.11489
    Press release | Pressemitteilung
  4. M. Bonitz, T. Dornheim, Zh.A. Moldabekov, S. Zhang, P. Hamann, A. Filinov, K. Ramakrishna, and J. Vorberger
    Ab initio simulation of warm dense matter,
    Phys. Plasmas 27 (4), 042710 (2020), paper is open access
    DOI: 10.1063/1.5143225 | local file (proof) | arXiv:1912.09884
  5. Zh.A. Moldabekov, T. Dornheim, M. Bonitz, and T.S. Ramazanov
    Ion energy loss characteristics and friction in a free electron gas at warm dense matter and non-ideal dense plasma conditions,
    Phys. Rev. E 101, 053203 (2020), DOI: 10.1103/PhysRevE.101.053203
    link | arXiv:2002.06811
  6. J.-P. Joost, N. Schlünzen, and M. Bonitz,
    The G1--G2 Scheme: Dramatic Acceleration of Nonequilibrium Green Functions Simulations Within the Hartree--Fock-GKBA,
    Phys. Rev. B 101, 245101 (2020), paper is open access,
    DOI: 10.1103/PhysRevB.101.245101 | arXiv:2002.12717
  7. T. Dornheim, J. Vorberger, and M. Bonitz,
    Nonlinear Electronic Density Response in Warm Dense Matter,
    Phys. Rev. Lett. 125, 085001 (2020)
    link | arXiv:2004.03229
    Pressemitteilung der CAU Kiel und CASUS Görlitz | Press Release of Kiel University and CASUS Göritz
  8. Hanno Kählert,
    Thermodynamic and transport data from the dynamic structure factor of Yukawa liquids,
    Phys. Rev. Research 2, 033287 (2020), open access
    link | local file
  9. A. Yilmaz, K. Hunger, T. Dornheim, S. Groth, and M. Bonitz,
    Restricted Configuration Path Integral Monte Carlo,
    J. Chem. Phys. 153 (12) 124114 (2020) | local file (accepted vs.) | arXiv:2007.12498
  10. Paul Hamann, Tobias Dornheim, Jan Vorberger, Zhandos A. Moldabekov, and M. Bonitz,
    Dynamic properties of the warm dense electron gas: an ab initio path integral Monte Carlo approach,
    Phys. Rev. B 102, 125150 (2020),
    arXiv:2007.15471
  11. Paul Hamann, Jan Vorberger, Tobias Dornheim, Zhandos A. Moldabekov, and Michael Bonitz,
    Ab initio results for the plasmon dispersion and damping of the warm dense electron gas,
    Contrib. Plasma Phys. 60 (10), e202000147 (2020), open access,
    DOI: 10.1002/ctpp.202000147 | arXiv:2008.04605 | poster
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2019

  1. M. Bonitz, A. Filinov, J.-W. Abraham, K. Balzer, H. Kählert, E. Pehlke, F.X. Bronold, M. Pamperin, M. Becker, D. Loffhagen, and H. Fehske
    Towards an integrated modeling of the plasma-solid interface, Review article
    Frontiers of Chemical Sciences and Engineering 13(2), 201-237 (2019)
    DOI:10.1007/s11705-019-1793-4 | arXiv:1809.02473
  2. M. Bonitz, K. Balzer, N. Schlünzen, M.R. Rasmussen, and J.-P. Joost
    Ion Impact Induced Ultrafast Electron Dynamics in Correlated Materials and Finite Graphene Clusters,
    ``feature article'' and cover of issue
    Phys. Stat. Sol. (b) 257, issue 7, 1800490 (2019) | DOI: 10.1002/pssb.201800490 | arXiv:1808.07868 | local file
  3. J.-P. Joost, N. Schlünzen, and M. Bonitz,
    Femtosecond Electron Dynamics in Graphene Nanoribbons -- a Nonequilibrium Green Functions Approach Within an Extended Hubbard Model,
    Phys. Stat. Sol. (b) 257, issue 7, article 1800498 (2019)
    link | local file
    Paper has been selected by the editors for the physica status solidi Showcase 2020 and is free to read until the end of 2020
  4. M. Bonitz, A.-P. Jauho, M. Sadovski, and S. Tikhodeev,
    In memoriam Leonid Keldysh,
    Phys. Stat. Sol. (b) 257, issue 7, article 1800600 (2019)
    link | local file (unocrrected proof) | supplement | arXiv:1901.01065
  5. P. Hartmann, J.C. Reyes, E.G. Kostadinova, L.S. Matthews, T.W. Hyde, R.U. Masheyeva, K.N. Dzhumagulova, T.S. Ramazanov, T. Ott, H. Kaehlert, M. Bonitz, I. Korolov, and Z. Donko
    Self-diffusion in two-dimensional quasi-magnetized rotating dusty plasmas,
    Phys. Rev. E 99, 013203 (2019)
    link | local file | arXiv:1812.10253
  6. T. Dornheim, S. Groth, and M. Bonitz,
    Permutation Blocking Path Integral Monte Carlo Simulations of Degenerate Electrons at Finite Temperature,
    Contrib. Plasma Phys. 59, issue 4-5, article e201800157 (2019)
    link | local file | DOI:10.1002/ctpp.201800157
    Paper has been selected as Editors' Choice including the cover picture of the issue.
  7. Zh. Moldabekov, S.M. Amirov, P. Ludwig, T.S. Ramazanov, and M. Bonitz,
    Effect of the dynamical collision frequency on quantum wakefields,
    Contrib. Plasma Phys. 59, issue 4-5, article e201800161 (2019) | DOI:10.1002/ctpp.201800161 | local file
  8. N. Schlünzen, K. Balzer, M. Bonitz, L. Deuchler, and E. Pehlke,
    Time-Dependent Simulation of Ion Stopping: Charge Transfer and Electronic Excitations,
    Contrib. Plasma Phys. 59(6), e201800184 (2019)
    DOI: 10.1002/ctpp.201800184 | local file
  9. Michael Bonitz,
    Editorial,
    Contrib. Plasma Phys. 59, 8 (2019) | DOI: 10.1002/ctpp.201990003
  10. Hanno Kählert,
    Dynamic structure factor of strongly coupled Yukawa plasmas with dissipation,
    Physics of Plasmas 26, 063703 (2019) DOI: 10.1063/1.5099579 | local file | highlighted by Scilight article
  11. Zh. Moldabekov, M. Bonitz, and T.S. Ramazanov,
    A critique of ``quantum dusty plasmas'',
    arXiv:1901.10839
  12. T. Dornheim, S. Groth, A. Filinov, and M. Bonitz,
    Path Integral Monte Carlo Simulation of Degenerate Electrons: Permuation-Cycle Properties,
    J. Chem. Phys. 151, 014108 (2019)
    DOI: 10.1063/1.5093171 | local file (accepted version) | arXiv:1902.06741
  13. S. Groth, T. Dornheim, and J. Vorberger,
    Ab Initio Path Integral Monte Carlo Approach to the Static and Dynamic Density Response of the Uniform Electron Gas,
    Phys. Rev. B 99, 235122 (2019)
    link | local file | arXiv:1903.11970
  14. Zh. Moldabekov, H. Kählert, T. Dornheim, S. Groth, M. Bonitz, and T.S. Ramazanov,
    Dynamical structure factor of strongly coupled ions in a dense quantum plasma,
    Phys. Rev. E 99, No. 5, 053203
    link | local file | arXiv:1903.11811
  15. M. Bonitz, Zh. Moldabekov, and T.S. Ramazanov,
    Quantum hydrodynamics for plasmas-quo vadis?,
    perspectives article, Phys. Plasmas 26, No. 9, 090601 (2019)
    DOI:10.1063/1.5097885 | local file | supplement
    Paper was selected as an Editors' Pick and is open access
  16. T. Dornheim, J. Vorberger, S. Groth, N. Hoffmann, Zh. Moldabekov, and M. Bonitz,
    The Static Local Field Correction of the Warm Dense Electron Gas: An ab initio Path Integral Monte Carlo Study and Machine Learning Representation,
    J. Chem. Phys. 151 (19), (2019)
    journal link | local file | arXiv:1907.08473
    Paper has been designated as Editors' Pick
  17. J.-P. Joost, A.-P. Jauho, and M. Bonitz,
    Correlated Topological States in Graphene Nanoribbon Heterostructures,
    Nano Letters 19, 9045-9050 (2019), paper is open access
    DOI: 10.1021/acs.nanolett.9b04075 | accepted version | supplement | arXiv:1910.01152
    Pressemitteilung der CAU Kiel | Press Release of Kiel University
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2018

  1. Zh. Moldabekov, M. Bonitz, and T. Ramazanov,
    Theoretical foundations of quantum hydrodynamics for plasmas,
    Phys. Plasmas 25, 031903 (2018) | local file | arXiv:1709.02196
  2. Michael Bonitz, Niclas Schlünzen, and Miriam Scharnke,
    Time Reversal Invariance of quantum kinetic equations II: Density operator formalism
    Contrib. Plasma Phys. 58, 1036-1046 (2018) | local file | arXiv:1705.04566
  3. Jürgen Meichsner, Michael Bonitz, Holger Fehske, and Alexander Piel (guest editors),
    Topical Issue: Fundamentals of Complex Plasmas,
    Europ. Phys. J. D 72:94 (2018) | local file
  4. Torben Ott, Hauke Thomsen, Jan Willem Abraham, Tobias Dornheim, and Michael Bonitz,
    Theory of strongly correlated plasmas: phase transitions, transport, quantum, and magnetic field effects,
    Europ. Phys. J. D 72: 84 (2018) | local file
  5. J. W. Abraham, A. Hinz, T. Strunksus, F. Faupel, and Michael Bonitz,
    Formation of polymer-based nanoparticles and nanocomposites by plasma-induced deposition methods,
    Europ. Phys. J. D 72: 92 (2018) | local file
  6. O. Polonskyi, A. M. Ahadi, T. Peter, K. Fujioka, J. W. Abraham, E. Vasiliauskaite, A. Hinz, T. Strunksus, W. Wolf, M. Bonitz, H. Kersten, and F. Faupel,
    Plasma-based formation and deposition of metal and metal oxide nanoparticles using a gas aggretation source,
    Europ. Phys. J. D 72: 93 (2018) | local file
  7. P. Ludwig, H. Jung, H. Kählert, J.-P. Joost, F. Greiner, Z. Moldabekov, J. Carstensen, S. Sundar, M. Bonitz, and A. Piel,
    Non-Maxwellian and magnetic field effects in complex plasma wakes,
    Europ. Phys. J. D 72: 82 (2018)
    link | local file
  8. H. Kählert, A. Melzer, M. Puttscher, T. Ott, and M. Bonitz,
    Magnetic Field effects and waves in complex plasmas,
    Europ. Phys. J. D 72:83 (2018) | local file
  9. J.W. Abraham and M. Bonitz,
    Molecular dynamics simulation of Ag-Cu cluster growth on a thin polymer film,
    Contrib. Plasma Phys. 58, 164-173 (2018) | local file (proof)
    DOI: 10.1002/ctpp.201700151
  10. Karsten Balzer, Maximilian Rodriguez Rasmussen, Niclas Schlünzen, Jan-Philip Joost, and Michael Bonitz,
    Doublon formation by ions impacting a strongly correlated finite lattice system,
    Phys. Rev. Lett. 121, 267602 (2018) | arXiv:1801.05267 | local file | supplement
    Pressemitteilung | Press release
  11. Tobias Dornheim, Simon Groth, and Michael Bonitz,
    The Uniform Electron Gas at Warm Dense Matter Conditions,
    Physics Reports 744, 1-86 (2018)
    link | local file | arXiv:1801.05783
    Pressemitteilung | Press release | further information
  12. Alexei Filinov, Michael Bonitz, and Detlef Loffhagen
    Microscopic modeling of gas-surface scattering. I. A combined molecular dynamics-rate equation approach,
    Plasma Sources Science Technol. 27 No.6, 064003 (2018) | local file (proof) | arXiv:1802.03466
  13. Alexei Filinov, Michael Bonitz, and Detlef Loffhagen
    Microscopic modeling of gas-surface scattering. II. Application to argon atom adsorption on a platinum (111) surface,
    Plasma Sources Science Technol. 27 No.6, 064002 (2018) | local file (proof) | arXiv:1802.01985
  14. Michael Bonitz, Alexei Filinov, Jan-Willem Abraham, and Detlef Loffhagen
    Extending ab initio plasma-surface simulations to experimentally relevant scales,
    Plasma Sources Science Technol. 27 No.6, 064005 | local file (proof) | arXiv:1802.08710
  15. Zh. Moldabekov, S. Groth, T. Dornheim, H. Kählert, M. Bonitz, and T.S. Ramazanov,
    Structural characteristics of strongly coupled ions in a dense quantum plasma,
    Phys. Rev. E 98, 023207 (2018)
    link | arXiv:1804.11201 | local file
  16. Yu. V. Arkhipov, A.B. Ashikbayeva, A. Askaruly, M. Bonitz, L. Conde, A.E. Davletov, T. Dornheim, D.Yu. Dubovtsev, S. Groth, Kh. Santybayev, S.A. Syzganbaeyeva, and I.M. Tkachenko,
    Sum rules and exact inequalities for strongly-coupled one-component plasmas,
    Contrib. Plasma Phys. 58, 967-975 (2018) | local file (proof)
  17. T. Dornheim, S. Groth, J. Vorberger, and M. Bonitz,
    Ab Initio Path Integral Monte Carlo Results for the Dynamic Structure Factor of Correlated Electrons: From the Electron Liquid to Warm Dense Matter,
    Physical Review Letters 121, 255001 (2018) | arXiv:1810.12776 | local file | supplement
    Pressemitteilung der CAU Kiel | Press Release of Kiel University
  18. Zh. Moldabekov, P. Ludwig, J.-P. Joost, and M. Bonitz,
    On the induced charge density distribution in streaming plasmas,
    Physical Sciences and Technology (Almaty) 5 (3-4), 10-15 (2018)
    local file | link
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2017

  1. Niclas Schlünzen, Jan-Philip Joost, and Michael Bonitz,
    Comment on "On the unphysical solutions of the Kadanoff--Baym equations in linear response: Correlation-induced homogeneous density-distribution and attractors",
    Phys. Rev. B 96, 117101 (2017)
    journal link | local file | arXiv:1605.04588
  2. Michael Bonitz,
    Increasing quality further (editorial),
    Contrib. Plasma Phys. 57, 49 (2017)
    journal link | local file
  3. Markus Becker, Hanno Kaehlert, Anbang Sun, Michael Bonitz, and Detlef Loffhagen
    Advanced fluid modelling and PIC/MCC simulations of low-pressure ccrf discharges,
    Plasma Sources Science and Technology 26, 044001 (2017)
    journal link | local file | arXiv:1608.04601
  4. Torben Ott, Michael Bonitz, Peter Hartmann, and Zoltan Donko,
    Spontaneous generation of a temperature anisotropy in a strongly coupled magnetized plasma,
    Phys. Rev. E 95, 013209 (2017),
    DOI: 10.1103/PhysRevE.95.013209
    local file | journal link | arXiv:1611.01397
  5. Tobias Dornheim, Simon Groth, Travis Sjostrom, Fionn D. Malone, Tim Schoof, W.M.C. Foulkes, and Michael Bonitz,
    Ab initio Quantum Monte Carlo simulation of the warm dense electron gas,
    Physics of Plasmas 24, 056303 (2017)
    journal link | local file | arXiv:1611.02658
  6. Simon Groth, Tobias Dornheim, and Michael Bonitz,
    Free Energy of the Uniform Electron Gas: Testing Analytical Models against First Principle Results,
    Contrib. Plasma Phys. 57, 137-146 (2017) | local file | arXiv:1611.05695
  7. Miriam Scharnke, Niclas Schlünzen, and Michael Bonitz,
    Time Reversal Invariance of quantum kinetic equations: Nonequilibrium Green Functions Formalism,
    J. Math. Phys. 58, 061903 (2017) | arXiv:1612.08033 | local file
  8. Niclas Schlünzen, Jan-Philip Joost, Fabian Heidrich-Meisner, and Michael Bonitz,
    Nonequilibrium dynamics in the one-dimensional Fermi-Hubbard model: A comparison of the nonequilibrium Green functions approach and the density matrix renormalization group method,
    Phys. Rev. B 95, 165139 (2017)
    Paper has been highligted as Editors' Choice
    DOI: 10.1103/PhysRevB.95.165139
    local file | journal link | arXiv:1702.01956
  9. Sita Sundar, H. Kählert, J.-Ph. Joost, P. Ludwig, and M. Bonitz,
    Collision induced amplification of wakes in streaming plasmas,
    Phys. Plasmas 24, 102130 (2017), doi: 10.1063/1.5008898
    journal link | accpepted manuscript | arXiv:1702.07152
  10. Simon Groth, Tobias Dornheim, Travis Sjostrom, Fionn D. Malone, W.M.C. Foulkes, and Michael Bonitz,
    Ab initio Exchange-Correlation Free Energy of the Uniform Electron Gas at Warm Dense Matter Conditions,
    Physical Review Letters 119, 135001 (2017) | local file | arXiv:1703.08074
    Supplementary material | Free energy parametrization
    Pressemitteilung der CAU Kiel | Press Release of Imperial College
  11. Tobias Dornheim, Simon Groth, Jan Vorberger, and Michael Bonitz,
    Permutation Blocking Path Integral Monte Carlo approach to the Static Density Response of the Warm Dense Electron Gas,
    Physical Review E 96, 023203 (2017)
    link | local file | arXiv:1706.00315
  12. Simon Groth, Tobias Dornheim, and Michael Bonitz,
    Configuration Path Integral Monte Carlo approach to the Static Density Response of the Warm Dense Electron Gas,
    J. Chem. Phys. 147, 164108 (2017), DOI: 10.1063/1.4999907
    journal link | local file (accepted version) | arXiv:1708.03934
  13. Tobias Dornheim, Simon Groth, and Michael Bonitz,
    Ab initio results for the Static Structure Factor of the Warm Dense Electron Gas,
    Contrib. Plasma Phys. 57(10), 468-478 (2017)
    Paper has been highligted as Editors' Choice
    journal link | arXiv:1709.02199
  14. Zh. Moldabekov, M. Bonitz, and T.S. Ramazanov
    Gradient correction and Bohm potential for 2D and 1D electron gases at a finite temperature,
    Contrib. Plasma Phys. 57, 499-505 (2017),
    DOI: 10.1002/ctpp.201700113 | journal link | arXiv:1709.05310
  15. Zh. Moldabekov, S. Groth, T. Dornheim, M. Bonitz, and T.S. Ramazanov
    Ion Potential in Non-ideal Dense Quantum Plasmas,
    Contrib. Plasma Phys. 57, 532-538 (2017)
    journal link | arXiv:1709.05316
  16. Zh. Moldabekov, P. Ludwig, J.-P. Joost, M. Bonitz, and T.S. Ramazanov
    Wake fields in streaming plasmas: Characteristics of the induced charge density distribution,
    arXiv:1709.09531
  17. Th. Bornath, W.-D. Kraeft, R. Redmer, G. Röpke, M. Schlanges, W. Ebeling, and M. Bonitz,
    A tribute to Dietrich Kremp,
    Contrib. Plasma Phys. 57, 434-440 (2017)
    link
top of page

2016

Papers and book chapters

  1. T. Ott, Z. Donkó, and M. Bonitz,
    The Energy-Autocorrelation Function in Magnetized and Unmagnetized Strongly Coupled Plasmas,
    Contrib. Plasma Phys. 56, 246 (2016)
    link | local file
  2. H. R. Larsson, S. Bauch, L.K. Sorensen, and Michael Bonitz,
    Correlation effects in strong-field ionization of heteronuclear diatomic molecules
    Phys. Rev. A 93, 013426 (2016)
    link | local file | arXiv:1507.04107
    Figure 2 has been selected by the PRA editors for their Kaleidoscope
  3. H. Kählert, J.-Ph. Joost, P. Ludwig, and M. Bonitz,
    Streaming complex plasmas: Ion susceptibility for a partially ionized plasma in parallel electric and magnetic fields,
    Contrib. Plasma Phys. 56, 204 (2016)
    link | local file
    article designated as Editors' Choice (open access)
  4. T. Dornheim, H. Thomsen, P. Ludwig, A. Filinov, and M. Bonitz,
    Analyzing quantum correlations made simple,
    Contrib. Plasma Phys. 56, 371 (2016)
    link | local file
  5. Dyuti Bhattacharya, A.V. Filinov, Amit Ghosal, and M. Bonitz,
    Influence of the nature of confinement on the melting of Wigner molecules in quantum dots, Europ. Phys. J. B 89, 60 (2016)
    journal link | local file | arXiv:1505.04044
  6. Simon Groth, Tim Schoof, Tobias Dornheim, and Michael Bonitz,
    Ab initio quantum Monte Carlo simulations of the uniform electron gas without fixed nodes,
    Phys. Rev. B 93, 085102 (2016)
    link | local file | arXiv:1511.03598
  7. C.M. Hinz, S. Bauch, and M. Bonitz,
    Instabilities and inaccuracies of multi-configurational time-dependent Hartree-Fock,
    J. Phys. Conf. Ser. 696, 012009 (2016)
    link | local file
  8. Niclas Schlünzen, Sebastian Hermanns, Michael Bonitz, and Claudio Verdozzi,
    Dynamics of strongly correlated fermions—ab initio results for two and three dimensions,
    Phys. Rev. B 93, 035107 (2016)
    link | local file | arXiv:1508.02957
  9. Zh. Moldabekov, P. Ludwig, M. Bonitz, and T. Ramazanov,
    Notes on anomalous quantum wake effects,
    Contrib. Plasma Phys. 56, 442 (2016)
    link | local file
  10. Niclas Schlünzen, and Michael Bonitz,
    Nonequilibrium Green functions approach to strongly correlated fermions in lattice systems,
    Contrib. Plasma Phys. 56, 5-91 (2016)
    link
  11. Tobias Dornheim, Simon Groth, Tim Schoof, and Michael Bonitz,
    Ab initio quantum Monte Carlo simulations of the uniform electron gas without fixed nodes: The unpolarized Case,
    Phys. Rev. B 93, 205134 (2016),
    link | local file | arXiv:1601.04977
  12. Michael Bonitz,
    Editorial,
    Contrib. Plasma Phys. 56, 4 (2016),
    link
  13. Jan Willem Abraham, Thomas Strunksus, Franz Faupel, and Michael Bonitz,
    Molecular dynamics simulation of gold cluster growth during sputter deposition
    J. Appl. Phys. 119, 185301 (2016)
    link | local file | arXiv:1602.05265
    Paper was highlighted by the journal as "Editors' Pick"
  14. Karsten Balzer, Niclas Schlünzen, and Michael Bonitz,
    Stopping dynamics of ions passing through correlated honeycomb clusters
    Phys. Rev. B 94, 245118 (2016) | local file | arXiv:1602.06928
  15. S. Bauch, H.R. Larsson, C. Hinz, and M. Bonitz,
    The time-dependent generalized active space configuration interaction approach to correlated ionization dynamics of diatomic molecules,
    J. Phys. Conf. Ser. 696, 012008 (2016)
    link | local file
  16. C. Verdozzi, A. Wacker, C.-O. Almbladh, and M. Bonitz,
    Progress in Non-equilibrium Green's Functions (PNGF VI),
    J. Phys. Conf. Ser. 696, 011001 (2016)
    link | local file
  17. Anton N. Artemyev, Anne D. Müller, David Hochstuhl, Lorenz S. Cederbaum, and Philipp V. Demekhin,
    Dynamic interference in the photoionization of He by coherent intense high-frequency laser pulses: Direct propagation of the two-electron wave packets on large spatial grids,
    Phys. Rev. A 93, 043418 (2016)
    link | local file
  18. K. N. Dzhumagulova, R. U. Masheyeva, T. Ott, P. Hartmann, T. Ramazanov, Z. Donko, and M. Bonitz,
    Cage correlation and diffusion in strongly coupled three-dimensional Yukawa systems in magnetic fields,
    Phys. Rev. E 93 , 063209 (2016)
    local file | journal link
    DOI: 10.1103/PhysRevE.93.063209
  19. A. Filinov,
    Correlation effects and collective excitations in bosonic bilayers: Role of quantum statistics, superfluidity, and the dimerization transition,
    Phys. Rev. A 94 , 013603 (2016), (35 pages)
    local file | journal link
    DOI: 10.1103/PhysRevA.94.013603
  20. Tobias Dornheim, Simon Groth, Travis Sjostrom, Fionn D. Malone, W.M.C. Foulkes, and Michael Bonitz,
    Ab initio Quantum Monte Carlo simulation of the warm dense electron gas in the thermodynamic limit,
    Phys. Rev. Lett. 117, 156403 (2016) | local pdf-file | arXiv:1607.08076
    Supplementary material
    Pressemitteilung der CAU Kiel
    Press Release of Imperial College London
top of page

2015

Papers and book chapters

  1. Zh. Moldabekov, P. Ludwig, J.-P. Joost, M. Bonitz, and T. Ramazanov,
    Dynamical screening and wake effects in classical, quantum, and ultrarelativistic plasmas,
    Contributions to Plasma Physics 55, 186-191 (2015)
    link
  2. Tobias Dornheim, Alexei Filinov, and Michael Bonitz,
    Superfluidity of trapped quantum systems in two and three dimensions
    Phys. Rev. B 91, 054503 (2015) | arXiv:1410.0878 | local file
    DOI: 10.1103/PhysRevB.91.054503
  3. Hauke Thomsen, and Michael Bonitz,
    Resolving phase transitions in finite systems
    Phys. Rev. E 91, 043104 (2015)
    arXiv:1410.2393
  4. Jan Willem Abraham, Nuttawut Kongsuwan, Thomas Strunksus, Franz Faupel, and Michael Bonitz,
    Simulation of Nanocolumn Formation in a Plasma Environment
    J. Appl. Phys. 117, 014305 (2015)
    link | local file
  5. Zhandos Moldabekov, Patrick Ludwig, Michael Bonitz, and Tlekkabul Ramazanov
    Ion potential in warm dense matter: Wake effects due to streaming degenerate electrons,
    Phys. Rev. E 91, 023102 (2015)
    link | local file | arXiv:1409.8079
    DOI: 10.1103/PhysRevE.91.023102
  6. Jan-Philip Joost, Patrick Ludwig, Hanno Kählert, Christopher Arran, and Michael Bonitz,
    Screened Coulomb potential in a flowing magnetized plasma,
    Plasma Phys. Control. Fusion 57, 025004 (2015)
    DOI: 10.1088/0741-3335/57/2/025004 | local file | arXiv:1407.1645
  7. V. Filinov, V. Fortov, M. Bonitz, and Zh. Moldabekov
    Fermionic path integral Monte Carlo results for the uniform electron gas at finite temperature,
    Phys. Rev. E 91, 033108 (2015)
    link | local file | arXiv:1407.3600
    DOI: 10.1103/PhysRevE.91.033108
  8. V. Filinov, M. Bonitz, Y. B. Ivanov, E.-M. Ilgenfritz, and V.E. Fortov,
    Thermodynamics of the quark-gluon plasma at finite chemical potential: color path integral Monte Carlo results,
    Contrib. Plasma Phys. 55, 203-208 (2015)
    link | arXiv:1408.5714
  9. Michael Bonitz, Niclas Schlünzen, and Sebastian Hermanns
    Toward a Nonequilibrium Green functions approach to diffusion in strongly coupled finite quantum systems
    Contributions to Plasma Physics 55, 152-158 (2015)
    link | arXiv:1409.2252
  10. Tim Schoof, Simon Groth, and Michael Bonitz,
    Towards ab initio thermodynamics of the electron gas at strong degeneracy
    Contributions to Plasma Physics 55, 136-143 (2015)
    link | arXiv:1409.6534
  11. Heather D. Whitley, Angel Alastuey, Jim A. Gaffney, Robert Cauble, Wolf-Dietrich Kraeft, and Michael Bonitz,
    A tribute to pioneers of strongly coupled plasmas: Hugh E. DeWitt, Bernard Jancovici, and Forrest J. Rogers
    Contributions to Plasma Physics 55, 102-115 (2015)
    link
    article designated as Editors' Choice (open access)
  12. V. Filinov, M. Bonitz, Y. B. Ivanov, E.-M. Ilgenfritz, and V.E. Fortov,
    Color path integral equation of state of the quark-gluon plasma at nonzero chemical potential,
    Plasma Physics and Controlled Fusion 57(4), 044004 (2015)
    DOI:10.1088/0741-3335/57/4/044004
    link
  13. H. Kählert, G.J. Kalman, and M. Bonitz,
    Linear fluid theory for weakly inhomogeneous plasmas with strong correlations,
    Contributions to Plasma Physics 55, 352-359 (2015)
    link
  14. T. Ott, and M. Bonitz,
    First-principle results for the radial pair distribution function in strongly coupled one-component plasmas,
    Contrib. Plasma Phys. 55, 243-253, (2015)
    link
  15. Tim Schoof, Simon Groth, Jan Vorberger, and Michael Bonitz,
    Ab initio thermodynamic results for the degenerate electron gas at finite temperature
    Phys. Rev. Lett. 115, 130402 (2015) | local pdf-file | Supplementary material | arXiv:1502.04616
    Pressemitteilung der CAU Kiel | Press Release of Kiel University
  16. D. Michta, F. Graziani, and M. Bonitz,
    Quantum hydrodynamics for plasmas - a Thomas-Fermi theory perspective,
    Contributions to Plasma Physics 55, 437-443 (2015)
    published online May 13, DOI: 10.1002/ctpp.201500024
    link | arXiv:1503.04037
    article designated as Editors' Choice (open access)
  17. H. Kählert,
    Ion-dust streaming instability with non-Maxwellian ions,
    Phys. Plasmas 22, 073703 (2015)
    link | local file
  18. Tobias Dornheim, Simon Groth, Alexei Filinov and Michael Bonitz,
    Permutation blocking path integral Monte Carlo: A highly efficient approach to the simulation of strongly degenerate non-ideal fermions
    New Journal of Physics 17, 073017 (2015), paper is open access
    link | local file | arXiv:1504.03859
  19. Torben Ott, Michael Bonitz, and Zoltan Donko,
    The Effect of Correlations on the Heat Transport in a Magnetized Plasma
    Phys. Rev. E 92, 063105 (2015)
    link | local file | arXiv:1506.03605
    DOI: 10.1103/PhysRevE.92.063105
  20. Stefan Landmann, Hanno Kählert, Hauke Thomsen and Michael Bonitz,
    Viscosity of confined two-dimensional Yukawa Liquids: a nonequilibrium method
    Phys. Plasmas 22, 093703 (2015)
    link | local file
  21. Zhandos Moldabekov, Tim Schoof, Patrick Ludwig, Michael Bonitz, Tlekkabul Ramazanov,
    Statically screened ion potential and Bohm potential in a quantum plasma
    Phys. Plasmas 22, 102104 (2015)
    link | local file | arXiv:1508.01120
  22. Tobias Dornheim, Tim Schoof, Simon Groth, Alexei Filinov and Michael Bonitz,
    Permutation blocking path integral Monte Carlo approach to the uniform electron gas at finite temperature,
    J. Chem. Phys. 143, 204101 (2015)
    link | local file | arXiv:1508.03221
top of page

2014

Papers and book chapters

  1. Sebastian Hermanns, Niclas Schlünzen, and Michael Bonitz
    Hubbard nanoclusters far from equilibrium
    Phys. Rev. B 90, 125111 (2014)
    link | local file | arXiv:1402.7300v2
  2. Hauke Thomsen, Patrick Ludwig, Michael Bonitz, Jan Schablinski, Dietmar Block, Andre Schella, and Andre Melzer
    Controlling strongly correlated dust clusters with lasers (review article)
    Journal of Physics D: Appl. Phys. 47, 383001 (2014)
    journal link
    arXiv:1402.7182v2
  3. J. W. Abraham, M. Bonitz, C. McDonald, G. Orlando, and T. Brabec
    Quantum Breathing Mode of Trapped Systems in One and Two Dimensions
    New Journal of Physics 16, 013001 (2014), paper is open access
    Journal link
    arXiv:1311.5371
  4. Shabbir A. Khan, and Michael Bonitz,
    Quantum Hydrodynamics,
    arXiv:1310.0283
    Chapter in: "Complex Plasmas: Scientific Challenges and Technological Opportunities", Editors: M. Bonitz, K. Becker, J. Lopez and H. Thomsen, Springer 2014, pp. 103-152
    more information
  5. Hauke Thomsen, Patrick Ludwig, Jan Schablinski, and Michael Bonitz,
    Phase transitions in dusty plasmas,
    Chapter in: "Complex Plasmas: Scientific Challenges and Technological Opportunities", Editors: M. Bonitz, K. Becker, J. Lopez and H. Thomsen, Springer 2014, pp. 3-49
    more information
  6. André Schella, André Melzer, Patrick Ludwig, Hauke Thomsen, and Michael Bonitz,
    Introduction to Streaming Complex Plasmas A: Attraction of like-charged particles,
    Chapter in: "Complex Plasmas: Scientific Challenges and Technological Opportunities", Editors: M. Bonitz, K. Becker, J. Lopez and H. Thomsen, Springer 2014, pp. 51-71
    more information
  7. Patrick Ludwig, Christopher Arran, and Michael Bonitz,
    Introduction to Streaming Complex Plasmas B: Theoretical Description of Wake Effects,
    Chapter in: "Complex Plasmas: Scientific Challenges and Technological Opportunities", Editors: M. Bonitz, K. Becker, J. Lopez and H. Thomsen, Springer 2014, pp. 73-99
    more information
  8. Tim Schoof, Simon Groth, and Michael Bonitz,
    Introduction to Configuration Path Integral Monte Carlo,
    arXiv:1408.2011
    Chapter in: "Complex Plasmas: Scientific Challenges and Technological Opportunities", Editors: M. Bonitz, K. Becker, J. Lopez and H. Thomsen, Springer 2014, pp. 153-194
    more information
  9. Lasse Rosenthal, Jan Willem Abraham, Franz Faupel, Thomas Strunskus, and Michael Bonitz,
    Kinetic Monte Carlo Simulations of Cluster Growth and Diffusion in Metal-Polymer Nanocomposites,
    Chapter in: "Complex Plasmas: Scientific Challenges and Technological Opportunities", Editors: M. Bonitz, K. Becker, J. Lopez and H. Thomsen, Springer 2014, pp. 321-370
    more information
  10. D. Hochstuhl, C. Hinz, and M. Bonitz,
    Time-dependent multiconfiguration methods for the numerical simulation of photoionization processes of many-electron atoms.
    European Physical Journal - Special Topics 223, No. 2, 177-336 (2014)
  11. H. Kählert, G. Kalman, and M. Bonitz,
    Dynamics of strongly correlated confined plasmas
    Phys. Rev. E (Rapid Communication) 90, 011101(R) (2014)
    link | local pdf-file
    DOI: 10.1103/PhysRevE.90.011101
  12. T. Ott, H. Löwen, and M. Bonitz,
    Dynamics of two-dimensional one-component and binary Yukawa systems in a magnetic field
    arXiv:1311.1668 | Phys. Rev. E 89, 013105 (2014) | local pdf-file
    Figure 1 of this article was selected by the editors for the
    "Kaleidoscope"
  13. Jan Willem Abraham, and Michael Bonitz,
    Quantum Breathing Mode of Trapped Particles: from nanoplasmas to ultracold gases,
    Contributions to Plasma Physics 54, 27-99 (2014)
    journal link
    this paper is open access
  14. M. Bonitz,
    Buchrezension zu B.K. Ridley, "Quantum Processes in Semiconductors", 5. Auflage,
    Physik Journal (2014)
    local pdf-file
  15. D. Lacroix, S. Hermanns, C. Hinz, and M. Bonitz
    Ultrafast dynamics of finite Hubbard clusters - a stochastic mean field approach
    Phys. Rev. B 90, 125112 (2014)
    link | local file | arXiv:1403.5098
  16. T. Ott, M. Bonitz, L. Stanton, and M.S. Murillo,
    Coupling Strength in Coulomb and Yukawa One-Component Plasmas,
    Physics of Plasmas 21, 113704 (2014)
    link | local file
    arXiv:1408.5840
  17. Sebastian Bauch, Lasse Kragh Sorensen, and Lars Bojer Madsen,
    Time-dependent generalized-active-space configuration-interaction approach to photoionization dynamics of atoms and molecules
    Phys. Rev. A 90, 062508 (2014)
    DOI: 10.1103/PhysRevA.90.062508 | arXiv:1410.2138
top of page

2013

Papers and book chapters

  1. Progress in Nonequilibrium Greens's Functions V,
    Robert van Leeuwen, Riku Tuovinen, and Michael Bonitz (Eds.), Refereed review papers
    Special issue of Journal of Physics: Conference Series, volume 427 (2013), published by Institute of Physics
    Book Information
    Contents and pdf-files of articles are freely available from this link to IoP
    Includes memorial articles remembering David C. Langreth written by Antti Jauho and Ulf von Barth and Bengt Lundqvist, see preface
  2. M. Bonitz, H. Kählert, T. Ott, and H. Löwen,
    Magnetized strongly coupled plasmas and how to realize them in a dusty plasma setup,
    arXiv:1210.2516
    Plasma Sources Science and Technology 22, 015007 (2013)
    DOI: 10.1088/0963-0252/22/1/015007
  3. M. Bonitz, S. Hermanns, K. Kobusch, and K. Balzer,
    Nonequilibrium Green's functions approach to the pair distribution function of quantum many-body systems out of equilibrium
    arXiv:1211.0209
    J. Phys. Conf. Ser. 427, 012002 (2013)
  4. A. Schella, A. Melzer, H. Kählert, D. Block, P. Ludwig, and M. Bonitz,
    Crystal and fluid modes in a three-dimensional finite dust cluster
    New J. Phys. 15, 113021 (2013), paper is open access
    journal link
  5. K. Balzer, and M. Bonitz,
    Nonequilibrium Green's Functions Approach to Inhomogeneous Systems
    Lecture Notes in Physics, vol. 867 (2013)
    more information
  6. M. Bonitz, E. Pehlke, and T. Schoof
    Attractive forces between ions in quantum plasmas: Failure of linearized quantum hydrodynamics
    Phys. Rev. E 87, 033105 (2013)
    local file | arXiv:1205.4922
  7. M. Bonitz, E. Pehlke, and T. Schoof
    Reply to "Comment on 'Attractive forces between ions in quantum plasmas: Failure of linearized quantum hydrodynamics'"
    Phys. Rev. E 87, 037102 (2013)
    local file | arXiv:1302.5543
  8. S. Hermanns, K. Balzer, and M. Bonitz,
    Few-particle quantum dynamics - comparing Nonequilibrium Green's functions with the generalized Kadanoff-Baym ansatz to density operator theory
    J. Phys. Conf. Ser. 427, 012008 (2013)
    arXiv:1211.6959
  9. D. Hochstuhl, and M. Bonitz,
    Time-dependent restricted actice space Configuration Interaction theory applied to the photoionization of neon
    J. Phys. Conf. Ser. 427, 012007 (2013)
  10. C.R. McDonald, G. Orlando, J.W. Abraham, D. Hochstuhl, M. Bonitz, and T. Brabec,
    Theory of the Quantum Breathing Mode in Harmonic Traps and its Use as a Diagnostic Tool
    Physical Review Letters 111, 256801 (2013)
    local pdf-file
  11. K. Balzer, S. Hermanns, and M. Bonitz,
    The generalized Kadanoff-Baym ansatz. Computing nonlinear response properties of finite systems
    arXiv:1211.3036
    J. Phys. Conf. Ser. 427, 012006 (2013)
  12. R. van Leeuwen, R. Tuovinen, and M. Bonitz,
    Progress in Nonequilibrium Green's Functions V (PNGF V)
    Includes memorial articles remembering David C. Langreth written by Antti Jauho and Ulf von Barth and Bengt Lundqvist
    J. Phys. Conf. Ser. 427, 011001 (2013)
  13. H. Kählert, T. Ott, A. Reynolds, G. J. Kalman, and M. Bonitz,
    Obliquely propagating waves in the magnetized strongly coupled one-component plasma
    Phys. Plasmas 20, 057301 (2013)
    DOI: 10.1063/1.4801522
    local pdf-file | Journal link
    Copyright (2013) American Institute of Physics. This article may be downloaded for personal use only. Any other use requires prior permission of the author and the American Institute of Physics.
  14. V.S. Filinov, Yu.B. Ivanov, V.E. Fortov, M. Bonitz, and P.R. Levashov,
    Color path-integral Monte carlo simulations of quark-gluon plasma: Thermodynamic and transport properties
    arXiv:1210.2664
    Physical Review C 87, 035207 (2013)
    DOI:10.1103/PhysRevC.87.035207
    Link
  15. T. Ott, D.A. Baiko, H. Kählert, and M. Bonitz,
    Wave Spectra of a Strongly Coupled Magnetized One-Component Plasma: Quasi-Localized Charge Approximatiuon vs. Harmonic Lattice Theory and Molecular Dynamics
    Phys. Rev. E 87, 043102 (2013)
    DOI: 10.1103/PhysRevE.87.043102
    Link
  16. L. Rosenthal, H. Greve, V. Zaporojtchenko, T. Strunskus, F. Faupel, and M. Bonitz,
    Formation of magnetic nanocolumns during vapor phase deposition of a metal-polymer nanocomposite: experiments and kinetic Monte Carlo simulations
    arXiv:1302.2595
    Journal of Applied Physics 114 (4), 044305 (2013)
    DOI: 10.1063/1.4816252
    local pdf-file | Journal Link
    Copyright (2013) American Institute of Physics. This article may be downloaded for personal use only. Any other use requires prior permission of the author and the American Institute of Physics.
  17. G. Kudelis, H. Thomsen, and M. Bonitz,
    Heat Transport in Confined Strongly Coupled 2D Dust Clusters
    arXiv:1304.4483
    Physics of Plasmas 20, 073701 (2013)
    DOI: 10.1063/1.4813244
    local pdf-file | Journal Link
    Copyright (2013) American Institute of Physics. This article may be downloaded for personal use only. Any other use requires prior permission of the author and the American Institute of Physics.
  18. S.A. Smolyansky, M. Bonitz, and A.V. Prozorkevich
    Laser driven electron-positron pair creation - kinetic theory versus analytical approximations
    Contributions to Plasma Physics 53, 788-795 (2013)
  19. M. Bonitz, E. Pehlke, and T. Schoof
    Comment on ``Discussion on ‘Novel attractive force between ions in quantum plasmas - failure of simulations based on a density functional approach’'',
    Physica Scripta 88, 057001 (2013)
    journal link | arXiv:1309.5897 | local pdf-file
  20. T. Ott, H. Löwen, and M. Bonitz,
    Magnetic field blocks two-dimensional crystallization in strongly coupled plasmas
    Physical Review Letters 111, 065001 (2013)
    Highlighted by PRL editors as Editors' Suggestion
    local pdf-file
  21. M. Bonitz, and A. Scharnhorst,
    Remembering Manfred Bonitz (7.3.1931 - 14.8.2012) on the first anniversary of his death
    Scientometrics 97, 121-128 (2013),
    journal link
    arXiv:1306.3789
  22. M. Bonitz, S. Hermanns, and K. Balzer,
    Dynamics of Hubbard nano-clusters following strong excitation
    Contributions to Plasma Physics 53, 778-787 (2013)
    DOI: 10.1002/ctpp.201310053
    arXiv:1309.4574
  23. S.A. Smolyansky, A.V. Prozorkevich, and M. Bonitz,
    Some problems of the kinetic description of vacuum particle creation in strong fields,
    Bulletin of Saratov State University, No. 2 (31), 206-214 (2013), in Russian,
    local pdf-file
  24. P. Hartmann, Z. Donko, T. Ott, H. Kählert, and M. Bonitz,
    Magnetoplasmons in rotating dusty plasmas,
    Physical Review Letters 111, 155002 (2013)
    arXiv:1309.6416
    local pdf-file
  25. Ph. V. Demekhin, D. Hochstuhl, and L.S. Cederbaum
    Photoionization of hydrogen atoms by coherent intense high-frequency short laser pulses: Direct propagation of electron wave packets on large spatial grids
    Phys. Rev. A 88, 023422 (2013),
    DOI: 10.1103/PhysRevA.88.023422
  26. M. Heimsoth, D. Hochstuhl, C.E. Creffield, L.D. Carr, and F. Sols,
    Effective Josephson dynamics in resonantly driven Bose–Einstein condensates
    New J. Phys. 15, 103006 (2013)
    DOI: 10.1088/1367-2630/15/10/103006
top of page

2012

Papers and book chapters

  1. J. Wrighton, H. Kählert, T. Ott, P. Ludwig, H. Thomsen, J. W. Dufty, and M. Bonitz
    Charge correlations in a harmonic trap
    arXiv:1110.2465
    Contrib. Plasma Phys. 52 , 45-48 (2012)
    DOI: 10.1002/ctpp.201100065
  2. V.S. Filinov, Yu.B. Ivanov, M. Bonitz, V.E. Fortov, and P.R. Levashov,
    Color path-integral Monte carlo simulations of quark-gluon plasma
    Physics Letters A 376 , 1096-1101 (2012)
    DOI: 10.1016/j.physleta.2012.02.005
  3. V.S. Filinov, M. Bonitz, Y.B. Ivanov, P.R. Levashov, and V.E. Fortov,
    Quantum Monte carlo Simulations of Strongly Coupled Quark-Gluon Plasma
    Contrib. Plasma Phys. 52 , 135-139 (2012)
    DOI: 10.1002/ctpp.201100084
  4. V.S. Filinov, M. Bonitz, H. Fehske, V.E. Fortov, and P.R. Levashov,
    Proton crystallization in a dense hydrogen plasma
    Contrib. Plasma Phys. 52, 224-228 (2012)
    DOI: 10.1002/ctpp.201100085
  5. J. Schablinski, D. Block, A. Piel, and A. Melzer, H. Thomsen, H. Kählert, and M. Bonitz,
    Laser heating of finite two-dimensional dust clusters: A. Experiments
    Physics of Plasmas 19, 013705 (2012)
    DOI: 10.1063/1.3677356
  6. H. Thomsen, H. Kählert, M. Bonitz, J. Schablinski, D. Block, A. Piel, and A. Melzer,
    Laser heating of finite two-dimensional dust clusters: B. Simulations
    Physics of Plasmas 19, 023701 (2012)
    DOI: 10.1063/1.3680240
  7. P. Ludwig, H. Kählert, M. Bonitz,
    Ion-Streaming induced order transition in 3D dust clusters
    arXiv:1201.1711
    Plasma Physics and Controlled Fusion 54, 045011 (2012)
    link
  8. M. Bonitz,
    Kinetic Theory for Quantum Plasmas
    AIP conference proceedings 1421, 135-155 (2012) DOI: 10.1063/1.3679593
    local pdf-file
  9. B. Schütte, S. Bauch, U. Frühling, M. Wieland, M. Gensch, E. Plönjes, T. Gaumnitz, A. Azima, M. Bonitz, and M. Drescher,
    Evidence for chirped Auger electron emission
    Physical Review Letters 108, 253003 (2012)
    DOI: 10.1103/PhysRevLett.108.253003
    | local file press release of Kiel University
    Pressemitteilung der CAU Kiel (deutsch)
    Hasylab Research Highlight
    Report on Pro-Physik
  10. P. Ludwig, W. J. Miloch, H. Kählert, and M. Bonitz,
    On the wake structure in streaming plasmas
    arXiv:1201.1714
    New Journal of Physics 14 053016 (2012), paper is open access
    link
  11. T. Ott, H. Kählert, A. Reynolds, and M. Bonitz,
    Oscillation Spectrum of a Magnetized Strongly Coupled One-Component-Plasma
    arXiv:1112.5651
    Physical Review Letters 108, 255002 (2012)
    DOI: 10.1103/PhysRevLett.108.255002
  12. J. W. Abraham, K. Balzer, D. Hochstuhl, and M. Bonitz,
    Quantum Breathing Mode of Interacting Particles in a One-Dimensional Harmonic Trap
    arXiv:1203.2019
    Phys. Rev. B 86, 125112 (2012)
    DOI: 10.1103/PhysRevB.86.125112
    Link
  13. S. Bauch, and M. Bonitz,
    Theoretical description of field-assisted post-collision interaction in Auger decay of atoms
    arXiv:1203.4704 | local file
    Phys. Rev. A 85, 053416 (2012)
    DOI: 10.1103/PhysRevA.85.053416
  14. K. Balzer, S. Hermanns, and M. Bonitz,
    Electronic double-excitations in quantum wells: solving the two-time Kadanoff-Baym equations
    arXiv:1203.4765
    Europhysics Letters 98, 67002 (2012)
    DOI:10.1209/0295-5075/98/67002
    Designated as Editors' Choice
  15. A. Melzer, A. Schella, T. Miksch, J. Schablinski, D. Block, A. Piel, H. Thomsen, H. Kählert, and M. Bonitz,
    Phase transitions of finite dust clusters in dusty plasmas
    Contrib. Plasma Phys. 52 , No. 10, 795-803 (2012)
    DOI: 10.1002/ctpp.201200028 access online publication
  16. D. Block, J. Carstensen, P. Ludwig, W.J. Miloch, F. Greiner, A. Piel, M. Bonitz, and A. Melzer
    Wake formation and wake field effects in complex plasmas
    Contrib. Plasma Phys. 52 , No. 10, 804-812 (2012)
    DOI: 10.1002/ctpp.201200030 access online publication
  17. M. Bonitz, L. Rosenthal, K. Fujioka, V. Zaporojtchenko, F. Faupel, and H. Kersten
    Towards a particle based simulation of complex plasma driven nanocomposite formation
    Contrib. Plasma Phys. 52 , No. 10, 890-898 (2012)
    DOI: 10.1002/ctpp.201200038 access online publication
  18. S. Hermanns, K. Balzer, and M. Bonitz,
    Nonequilibrium Green's functions approach to inhomogeneous quantum many-body systems using the generalized Kadanoff-Baym ansatz
    arXiv:1205.4427
    Physica Scripta T151 (2012), 014035 link
    DOI: 10.1088/0031-8949/2012/T151/014036
  19. J. Schleede, A. Filinov, M. Bonitz, and H. Fehske,
    Phase diagram of bilayer electron-hole plasmas
    arXiv:1205.4686
    Contrib. Plasma Phys. 52 , No. 10, 819-826 (2012)
    DOI: 10.1002/ctpp.201200045 access online publication
  20. A. Filinov, and M. Bonitz,
    Collective and single-particle excitations in 2D dipolar Bose gases
    arXiv:1205.5191
    Phys. Rev. A 86, 043628 (2012), 26 pages
    DOI: 10.1103/PhysRevA.86.043628
  21. H. Kählert, J. Carstensen, M. Bonitz, H. Löwen, F. Greiner, and A. Piel,
    Magnetizing a complex plasma without a magnetic field,
    arXiv:1206.5073
    Phys. Rev. Lett. 109, 155003 (2012)
    DOI: 10.1103/PhysRevLett.109.155003
  22. V. Filinov, Y.B. Ivanov, M. Bonitz, P.R. Levashov, and V.E. Fortov,
    Quantum simulations of strongly coupled quark-gluon plasma
    Physics of Atomic Nuclei 75, 693-697 (2012)
    DOI 10.1134/S1063778812060130
  23. D. Hochstuhl, and M. Bonitz
    Time-dependent restricted active space Configuration Interaction for the photoionization of many-electron atoms
    arXiv:1207.5693
    Phys. Rev. A 86, 053424 (2012), 12 pages
  24. J. Meichsner, M. Bonitz, A. Piel, and H. Fehske,
    Recent Progress in Complex Plasmas
    Contrib. Plasma Phys. 52 , No. 10, p. 789 (2012)
  25. S.A. Smolyansky, A.D. Panferov, A.V. Prozorkevich, and M. Bonitz,
    Vacuum particle creation under action of a strong external field: an example of irreversible behavior of a system with time reversal symmetry
    P-Adic Numbers, Ultrametric Analysis, and Applications 4, 319-325 (2012)
    link
  26. S. Hellmann, T. Ott, L. Kipp, and K. Ropssnagel
    Vacuum spüace-charge effects in nano-ARPES
    Phys. Rev. B 85, 075109 (2012) | local file
top of page

2011

Papers and book chapters

  1. H. Kählert, and M. Bonitz
    Time evolution from weak to strong coupling in a spherically confined dusty plasma,
    Contrib. Plasma Phys. 51, 519-523 (2011)
    DOI 10.1002/ctpp.201010105
    link
  2. V. Filinov, Y.B. Ivanov, M. Bonitz, P.R. Levashov, and V.E. Fortov,
    Quantum simulations of strongly coupled quark-gluon plasma
    Physics of Atomic Nuclei 74, 1364-1374 (2011)
    arXiv:1006.3390
    DOI 10.1134/S1063778811090043
  3. D. Hochstuhl, and M. Bonitz
    Two-photon ionization of Helium studied with the multiconfigurational time-dependent Hartree-Fock method
    arXiv:1010.5422
    Journal of Chemical Physics 134, issue 8, 084106 (2011),
    DOI: 10.1063/1.3553176
  4. T. Ott, M. Stanley, and M. Bonitz
    Effective coupling parameter for 2D Yukawa liquids and non-invasive measurement of plasma parameters
    arXiv:1010.6193
    Physics of Plasmas 18, 063701 (2011)
    Copyright (2011) American Institute of Physics. This article may be downloaded for personal use only. Any other use requires prior permission of the authors and the American Institute of Physics.
  5. H. Kählert, and M. Bonitz
    Collective excitations of a spherically confined Yukawa plasma,
    Physical Review E 83, 056401 (2011)
    10.1103/PhysRevE.83.056401
    arXiv:1011.5849

  6. T. Ott, M. Bonitz, P. Hartmann, and Z. Donko
    Higher harmonics of the magnetoplasmon in strongly coupled Coulomb and Yukawa systems
    arXiv:1012.2345
    Physical Review E 83, 046403 (2011)
    DOI: 10.1103/PhysRevE.83.046403
  7. J. Böning, A.V. Filinov, and M. Bonitz,
    Crystallization of an Exciton Superfluid
    arXiv:1101.1757
    Phys. Rev. B 84 , 075130 (2011)
    local pdf-file
    read brief summary and illustrations
    Press release of Kiel university | Deutsche Pressemitteilung
  8. M. Bonitz,
    A plasma of magnetic monopoles
    Nature Physics, 7 , 192-194, published online 13. Feb. (2011)
    doi:10.1038/nphys1935
  9. T. Ott, M. Bonitz, Z. Donko, H. Kählert, and P. Hartmann,
    Higher harmonics generation in strongly coupled magnetized Yukawa liquids,
    arXiv:1102.3842
    IEEE Transactions to Plasma Science 39, No. 11, 2768-2769 (2011)
    doi:10.1109/TPS.2011.2131156
  10. T. Schoof, M. Bonitz, A. Filinov, D. Hochstuhl, and J.W. Dufty,
    Configuration Path integral Monte Carlo,
    Contrib. Plasma Phys. 51, No. 8, 687-697 (2011)
    DOI:10.1002/ctpp.201100012 | pdf-file
  11. V. Filinov, M. Bonitz, Y.B. Ivanov, V.V. Skokov, P.R. Levashov, and V.E. Fortov,
    Quantum color dynamic simulations of the strongly coupled quark-gluon plasma
    Contrib. Plasma Phys. 51, 322-327 (2011),
    DOI 10.1002/ctpp.201010125
    pdf-file (preliminary version)
    journal link
  12. L. Rosenthal, A. Filinov, M. Bonitz, V. Zaporojtchenko, and F. Faupel,
    Diffusion and growth of metal clusters in nanocomposites: a Kinetic Monte Carlo study
    arXiv:1106.3719
    Contrib. Plasma Phys. 51, 971-980 (2011)
    DOI 10.1002/ctpp.201010125
    journal link
  13. T. Ott, and M. Bonitz,
    Diffusion in a strongly coupled magnetized plasma
    arXiv:1106.3717
    Phys. Rev. Lett. 107, 135003 (2011)
    DOI: 10.1103/PhysRevLett.107.135003 | local pdf-file
  14. A. Schella, T. Miksch, A. Melzer, J. Schablinski, D. Block, A. Piel, H. Thomsen, P. Ludwig, and M. Bonitz,
    Melting Scenarios for 3D Dusty Plasma Clusters
    Phys. Rev. E 84, 056402 (2011)
    DOI: 10.1103/PhysRevE.84.056402
    Fig. 10b of this paper as been selected by Physical Review E for the Kaleidoscope
  15. H. Bruhn, H. Kählert, T. Ott, M. Bonitz, J. Wrighton, and J. W. Dufty
    Theoretical description of spherically confined strongly correlated Yukawa plasmas
    Phys. Rev. E 84, 046407 (2011)
    link | local pdf-file
top of page

2010

Papers and book chapters

  1. Introduction to Complex Plasmas, Tutorial lectures
    M. Bonitz, N. Horing, and P. Ludwig (eds.)
    Springer Series "Atomic, Optical and Plasma Physics", vol. 59, Springer, Berlin (2010)
    Hardcover, 447 p., ISBN: 978-3-642-10591-3, DOI: 10.1007/978-3-642-10592-0
    Electronic version
    link
  2. Progress in Nonequilibrium Greens's Functions IV,
    Michael Bonitz and Karsten Balzer (Eds.), Refereed review papers
    Special issue of Journal of Physics: Conference Series, volume 220 (2010), published by Institute of Physics
    Book Information
    Contents and pdf-files of articles are freely available from this link to IoP
  3. M. Bonitz, and K. Balzer,
    Preface
    J. Phys: Conf. Series 220, i (2010) link to IoP
  4. M. Bonitz, A. Filinov, J. Böning, and J.W. Dufty,
    Introduction to Quantum Plasmas,
    Chapter in the book
  5. S. Bauch, K. Balzer, P. Ludwig, A. Filinov, and M. Bonitz,
    Introduction to Quantum Plasma Simulations,
    Chapter in the book
  6. C. Henning, and M. Bonitz,
    Theory of strongly correlated dusty plasmas, Chapter in the book
  7. T. Ott, P. Ludwig, H. Kählert, and M. Bonitz,
    Molecular dynamics simulations of dusty plasmas, Chapter in the book
  8. M. Bonitz, D. Hochstuhl, S. Bauch, and K. Balzer
    Quantum kinetic approach to time-resolved photoionization of atoms
    arXiv:0909.1964
    Contrib. Plasma Phys. 50, 54-59 (2010)
    DOI: 10.1002/ctpp.201010012
    download
  9. J. Wrighton, J.W. Dufty, M. Bonitz, and H. Kählert,
    Shell Structure of Confined Charges at Strong Coupling,
    Contrib. Plasma Phys. 50, 26-30 (2010)
    DOI: 10.1002/ctpp.201010007
    download
  10. H. Kählert, and M. Bonitz,
    How spherical plasma crystals form
    arXiv:0909.2148
    Phys. Rev. Lett. 104, 015001 (2010)
  11. P. Ludwig, M. Bonitz, H. Kählert, and J.W. Dufty,
    Dynamics of strongly correlated ions in a partially ionized quantum plasma
    J. Phys. Conf. Series 220, 012003 (2010)
    journal link
    local pdf
  12. K. Balzer, S. Bauch, and M. Bonitz,
    Efficient grid-based method in nonequilibrium Green's function calculations. Application to model atoms and molecules,
    arXiv:0910.5458 | local pdf | Phys. Rev. A 81, 022510 (2010)
  13. M. Bonitz, C. Henning, and D. Block
    Complex plasmas - a laboratory for strong correlations,
    Invited review (30 pages),
    Reports on Progress in Physics 73, 066501 (2010)
    DOI (link) | local pdf
  14. D. Hochstuhl, S. Bauch, and M. Bonitz,
    Multiconfigurational time-dependent Hartree-Fock calculations for photoionization of one-dimensional Helium
    J. Phys. Conf. Series 220, 012019 (2010)
    journal link
    local pdf
    arXiv:0911.0259
  15. S. Bauch, D. Hochstuhl, K. Balzer, and M. Bonitz,
    Quantum breathing mode of interacting particles in harmonic traps
    J. Phys. Conf. Series 220, 012013 (2010)
    journal link
    local pdf
  16. K. Balzer, S. Bauch, and M. Bonitz,
    Finite elements and the discrete variable representation in nonequilibrium Green's function calculations. Atomic and molecular models
    J. Phys. Conf. Series 220, 012020 (2010)
    journal link | local pdf | arXiv:0911.4348
  17. M. Heimsoth and M. Bonitz,
    Interacting bosons beyond the Gross-Pitaevskii mean-field
    arXiv:0901.1852
    Physica E 42, 420-424 (2010)
    DOI: 10.1016/j.physe.2009.06.040
    download local pdf-file
  18. D. Hochstuhl, K. Balzer, S. Bauch and M. Bonitz,
    Nonequilibrium Green functions approach to photoionization processes in atoms
    arXiv:0902.0768
    Physica E 42, 513-519 (2010)
    DOI: 10.1016/j.phys.2009.06.044
    download local pdf-file
  19. M. Bonitz, Z. Donko, T. Ott, H. Kählert, and P. Hartmann,
    Nonlinear magnetoplasmons in strongly coupled Yukawa plasmas
    arXiv:1003.2721
    Phys. Rev. Lett. 105, 055002 (2010)
  20. A. Filinov, N. Prokof'ev, and M. Bonitz,
    Berezinskii-Kosterlitz-Thouless transition in two-dimensional dipole systems
    arXiv:1004.4362
    Phys. Rev. Lett. 105, 070401 (2010) | local pdf-file
  21. S. Bauch, K. Balzer, and M. Bonitz,
    Electronic correlations in double ionization of atoms in pump-probe experiments
    arXiv:1005.1253
    European Physics Letters 91, 53001 (2010)
    DOI: 10.1209/0295-5075/91/53001
    download local pdf-file
  22. P. Ludwig, H. Thomsen, K. Balzer, A. Filinov, and M. Bonitz,
    Tuning Correlations in Multi-Component Plasmas
    Plasma Phys. Control. Fusion 52, 124013 (2010)
    link to journal
    download local pdf-file
  23. K. Balzer, S. Bauch, and M. Bonitz,
    Time-dependent second Born calculations for model atoms and molecules in strong laser fields,
    Phys. Rev. A 82, 033427 (2010)
    DOI link | local pdf | arXiv:1008.4621
    Fig. 3c of this paper has been selected by Physical Review A for the Kaleidoscope
  24. H. Kählert, and M. Bonitz
    Fluid Modes of a Spherically Confined Yukawa Plasma,
    Phys. Rev. E 82, 036407 (2010)
    arXiv:1007.1352
    DOI link
  25. G. J. Kalman, P. Hartmann, K. I. Golden, A. Filinov, and Z. Donkó
    Correlational origin of the roton minimum
    arXiv:1002.3516
    European Physics Letters 90, 55002 (2010)
    journal link
  26. S.A. Smolyansky, M. Bonitz, and A.V. Tarakanov
    Strong Field Generalization of the Interband Transition Kinetics
    Physics of Particles and Nuclei 7, 1075-1078 (2010)
    download local pdf-file
top of page

2009

Papers

  1. Complex Systems of Charged Particles and their interaction with electromagnetic radiation, M. Bonitz and M. Romanowsky (eds.), Special Issue of Contrib. Plasma Phys. 49 No. 7-8 (2009), pp. 430-608
    download contents with abstracts
    download preface
  2. J. Wrighton, J.W. Dufty, C. Henning, and M. Bonitz,
    Linear Response for Confined Particles
    arXiv:0809.3071
    J. Phys. A 42 (2009) 214052
    DOI: 10.1088/1751-8113/42/21/214052
    download local pdf-file
  3. C. Henning, H. Kählert, P. Ludwig, A. Melzer, and M. Bonitz,
    Spectral properties of spherically confined dusty plasma crystals
    arXiv:0810.2592
    J. Phys. A 42 (2009) 214023
    DOI: 10.1088/1751-8113/42/21/214023
    download local pdf-file
  4. V.S. Filinov, P.R. Levashov, A.V. Botan, M. Bonitz, and V.E. Fortov,
    Thermodynamic Properties and electrical conductivity of strongly correlated plasma media
    arXiv:0810.2472
    J. Phys. A 42 (2009) 214002
    DOI: 10.1088/1751-8113/42/21/214002
    download local pdf-file
  5. A. Filinov, P. Ludwig, M. Bonitz, and Yu.E. Lozovik,
    Effective interaction potential and superfluid-solid transition of spatially indirect excitons
    arXiv:0810.2730
    J. Phys. A 42 (2009) 214016
    DOI: 10.1088/1751-8113/42/21/214016
    download local pdf-file
  6. K. Balzer and M. Bonitz,
    Nonequilibrium properties of strongly correlated artificial atoms - a Green's functions approach
    arXiv:0810.2633
    J. Phys. A 42 (2009) 214020
    DOI: 10.1088/1751-8113/42/21/214020
    download local pdf-file
  7. K. Balzer, M. Bonitz, R. van Leeuwen, N.E. Dahlen, and A. Stan,
    Nonequilibrium Green's functions approach to strongly correlated few-electron quantum dots
    arXiv:0810.2425
    Phys. Rev. B 79 (2009) 245306
    DOI: 10.1103/PhysRevB.79.245306
    download local pdf-file
    This paper has been selected for the June 2009 issue of Virtual Journal of Nanoscale Science & Technology,
    published by the American Physical Society and the American Institute of Physics.
  8. K. Sperlich, P. Ludwig, A. Filinov, M. Bonitz, H. Stolz, D. Hommel, and A. Gust,
    Electric field-induced exciton localization in quantum wells
    phys. stat. sol. (c) 6, 551-555 (2009) | link | local pdf-file
    note: preliminary file, Wiley does not allow to post final version
  9. V.S. Filinov, M. Bonitz, H. Fehske, P.R. Levashov, and V.E. Fortov,
    Structures of 2D electron-hole plasmas
    J. Phys. A 42 (2009) 214014
    DOI: 10.1088/1751-8113/42/21/214014
    download local pdf-file
  10. H. Baumgartner, D. Block, and M. Bonitz,
    Structure and Phase Transitions of Yukawa Balls
    arXiv:0901.4309
    Contrib. Plasma Phys. 49 (2009), 281-302
    DOI: 10.1002/ctpp.200910027
  11. J.W. Dufty, S. Dutta, A. Filinov, and M. Bonitz,
    Quantum Potentials for Simulation and DFT
    International Journal of Quantum Chemistry 109 (2009), 3075-3081 | link
  12. S.A. Smolyansky, M. Bonitz, and A.V. Tarakanov,
    Nonperturbative Kinetics of Coherent Electron-Hole Excitations in a Strong Laser Field
    Theoretical Physics 10, 60-81 (2009) | local pdf-file
  13. S. Bauch, K. Balzer, C. Henning, and M. Bonitz,
    Quantum breathing mode of trapped bosons and fermions at arbitrary coupling
    arXiv:0903.1993
    Phys. Rev. B 80 (2009) 054515
    DOI: 10.1103/PhysRevB.80.054515
    download local pdf-file
    This paper has been selected for the September 2009 issue of Virtual Journal of Atomic Quantum Fluids,
    published by the American Physical Society and the American Institute of Physics.
  14. T. Ott, M. Bonitz, and P. Hartmann,
    Comment on: "Self-Diffusion in 2D Dusty-Plasma Liquids: Numerical-Simulation Results"
    arXiv:0904.2989
    Phys. Rev. Lett. 103 (2009) 099501
    DOI: 10.1103/PhysRevLett.103.099501
    download local pdf-file
  15. S.A. Smolyansky, A.V. Tarakanov, and M. Bonitz,
    Vacuum Particle Creation: Analogy with the Bloch Theory in Solid State Physics
    Contrib. Plasma Phys. 49(2009), 575-584
    DOI: 10.1002/ctpp.200910058
    download local pdf-file
  16. S. Bauch, and M. Bonitz,
    Fast electron generation by Coulomb scattering on spatially correlated ions in a strong laser field
    arXiv:0904.4855
    Contrib. Plasma Phys. 49 (2009), 558-567
    DOI: 10.1002/ctpp.200910056
    download local pdf-file
    Fig. 6 of this paper has been chosen for the cover of the journal
  17. V. Filinov, M. Bonitz, Y.B. Ivanov, V.V. Skokov, P.R. Levashov, and V.E. Fortov,
    Equation of state of strongly coupled quark-gluon plasma - Path integral Monte Carlo results
    arXiv:0905.0324
    Contrib. Plasma Phys. 49 (2009), 536-543
    DOI: 10.1002/ctpp.200910053
    download local pdf-file
  18. E.E. Krasovskiy, and M. Bonitz,
    Towards a theory of attosecond transient recorder
    arXiv:0907.5384
    Phys. Rev. A 80, 053421 (2009)
  19. T. Ott and M. Bonitz,
    Is diffusion anomalous in two-dimensional Yukawa liquids?
    arXiv:0909.0235
    Phys. Rev. Lett. 103, 195001 (2009)
    download pdf-file
    journal link
    DOI: 10.1103/PhysRevLett.103.195001
  20. J. Wrighton, J.W. Dufty, H. Kählert, and M. Bonitz,
    Theoretical Description of Coulomb Balls - Fluid Phase Phys. Rev. E 80, 066405 (2009), | arXiv:0909.0775
  21. T. Ott, and M. Bonitz
    Anomalous and Fickian diffusion in two-dimensional dusty plasmas
    Contrib. Plasma Phys. 49, 760-764 (2009) | DOI: 10.1002/ctpp.200910089 | local pdf-file
top of page top of page

2008

Papers

  1. V. Filinov, M. Bonitz, A. Filinov, and V. Golubnychiy,
    Wigner Function Quantum Molecular Dynamics
    ArXiv: cond-mat/0611560
    Chapter in: Springer Lecture Notes in Physics 739, 41, (2008) | link
  2. A. Filinov, J. Böning, and M. Bonitz,
    Path Integral Monte Carlo Simulations of Charged Particles in Traps
    ArXiv: cond-mat/0611558
    Chapter in: Springer Lecture Notes in Physics 739, 397, (2008) | link
  3. D. Block, S. Käding, A. Melzer, A. Piel, H. Baumgartner, and M. Bonitz,
    Experiments on metastable states of three-dimensional trapped particle clusters
    Physics of Plasmas 15, 040701 (2008) | link | local pdf-file
  4. M. Bonitz, P. Ludwig, H. Baumgartner, C. Henning, A. Filinov, D. Block, O. Arp, A. Piel, S. Käding, Y. Ivanov, A. Melzer, H. Fehske, and V. Filinov,
    Classical and quantum Coulomb crystals
    ArXiv: 0801.0754 | Physics of Plasmas 15, 055704 (2008) | local pdf-file (open access)
  5. J. Böning, A. Filinov, P. Ludwig, H. Baumgartner, M. Bonitz, and Yu.E. Lozovik,
    Melting of trapped few particle systems
    Physical Review Letters 100, 113401 (2008)
    ArXiv: 0711.1124
  6. A. Filinov, J. Böning, M. Bonitz, and Yu.E. Lozovik,
    Controlling the spatial distribution of superfluidity in radially ordered Coulomb clusters
    ArXiv: 0711.1255
    Phys. Rev. B 77, 214527 (2008)
  7. M. Ziegler, J. Kröger, R. Berndt, A. Filinov, and M. Bonitz,
    Self-organization mechanism of an ultrathin alkali metal film on Ag(111): A combined scanning tunneling microscopy and kinetic Monte Carlo investigation
    ArXiv: 0810.2413
    Physical Review B 78, 245427 (2008)
  8. C. Henning, K. Fujioka, P. Ludwig, A. Piel, A. Melzer, and M. Bonitz,
    Existence and Vanishing of the Breathing Mode in Strongly Correlated Finite Systems
    ArXiv: 0803.4403
    Physical Review Letters 101, 045002 (2008)
  9. P. Ludwig, K. Balzer, A. Filinov, H. Stolz, M. Bonitz,
    On the Coulomb-dipole transition in mesoscopic classical and quantum electron-hole bilayers
    ArXiv:0804.2406
    New Journal of Physics 10, 083031 (2008), paper is open access
  10. H. Kählert, P. Ludwig, H. Baumgartner, M. Bonitz, D. Block, S. Käding, A. Melzer, and A. Piel,
    Probability of metastable configurations in spherical three-dimensional Yukawa crystals
    ArXiv:0805.3016
    Phys. Rev. E 78, 036408 (2008), 13 pages
  11. H. Baumgartner, D. Asmus, V. Golubnychiy, P. Ludwig, H. Kählert, and M. Bonitz,
    Structural transitions of finite spherical Yukawa crystals
    New Journal of Physics 10, 093019 (2008), 18 pages
  12. V.S. Filinov, G. Schubert, P. Levashov, M. Bonitz, H. Fehske, V.E. Fortov, and A.V. Filinov,
    Center of mass tomographic approach to quantum dynamics
    Physics Letters A 372, 5064-5070 | link
  13. S. Käding, D. Block, A. Melzer, A. Piel, H. Kählert, P. Ludwig, and M. Bonitz,
    Shell transitions between metastable states of Yukawa balls
    Physics of Plasmas 15, 073710 (2008) | link
  14. V.S. Filinov, H. Fehske, M. Bonitz, V.E. Fortov, and P. Levashov,
    Ordered structure formation in 2D mass asymmetric electron-hole plasmas
    Physics Letters A 372, 5208-5214 | link
  15. T. Ott, Z. Donko, P. Hartmann, and M. Bonitz,
    Superdiffusion in quasi-two-dimensional Yukawa liquids
    ArXiv:0806.0633
    Phys. Rev. E 78, 026409 (2008)
  16. A. Fromm, M. Bonitz, and J.W. Dufty,
    Quantum kinetic theory of trapped particles in a strong electromagnetic field
    Annals of Physics 323, 3158-3174 (2008) | link | local pdf-file
  17. A. Piel, O. Arp, D. Block, I. Pilch, T. Trottenberg, S. Käding, A. Melzer, H. Baumgartner, C. Henning, and M. Bonitz,
    Complex plasmas: Forces and dynamical behaviour
    Plasma Phys. Control. Fusion 50, 124003 (2008) | link
  18. S. Bauch, and M. Bonitz,
    Angular distributions of atomic photoelectrons produced in the UV and XUV regimes
    ArXiv:0806.4501
    Phys. Rev. A 78, 043403 (2008), 9 pages
    This paper has been selected for the November 2008 issue of Virtual Journal of Ultrafast Science,
    published by the American Physical Society and the American Institute of Physics.
  19. A. Melzer, S. Kaeding, D. Block, A. Piel, P. Ludwig, and M. Bonitz,
    Strongly coupled dusty plasmas: finite and extended systems
    AIP Conference proceedings, vol. 993, pp. 75-82 (2008)
    download pdf-file
  20. P.R. Levashov, V.S. Filinov, A. Botan, M. Bonitz, and V.E. Fortov,
    Monte Carlo calculations of thermodynamic properties of deuterium under high pressure
    J. Phys.: Conf. Series 121, 012012(2008)
  21. M. Bonitz, P. Ludwig, and J.W. Dufty,
    Dynamics of strongly correlated ions in a partially ionized quantum plasma
    arXiv:0810.1659v1
  22. D. Block, M. Kroll, O. Arp, A. Piel, S. Käding, Y. Ivanov, A. Melzer, C. Henning, H. Baumgartner, and M. Bonitz,
    Structure and dynamics of finite dust clouds,
    AIP Conference Proceedings 1041, 69-72 (2008)
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2007

Papers

  1. P. Ludwig, A. Filinov, Yu. Lozovik, H. Stolz, and M. Bonitz,
    Crystallization in mass-asymmetric electron-hole bilayers, Contrib. Plasma Phys. 47, 335-344 (2007) | ArXiv: cond-mat/0611556 | link
  2. H. Baumgartner, H. Kählert, V. Golubnychiy, C. Henning, S. Käding, A. Melzer, and M. Bonitz,
    Shell structure of Yukawa balls, Contrib. Plasma Phys. 47, 281-290 (2007) | link
  3. V. Filinov, H. Fehske, M. Bonitz, V.E. Fortov, and P.R. Levashov,
    Correlation effects in partially ionized mass asymmetric electron-hole plasmas,
    Phys. Rev. E 75 , 036401 (2007) | link | local pdf-file | ArXiv: cond-mat/0702049
  4. V. Filinov, M. Bonitz, V.E. Fortov, H. Fehske, and P.R. Levashov,
    Coulomb crystal and quantum melting in electron-hole plasmas under high pressure
    phys. stat. sol. (b) 244 , 474-479 (2007) | link
  5. A.V. Friesen, A.V. Prozorkevich, S.A. Smolyansky, and M. Bonitz,
    Nonperturbative kinetics of electron-hole excitations in a strong laser field,
    Proceedings of SPIE, vol. 6537 (2007)
    download pdf-file
  6. A.V. Prozorkevich, S.A. Smolyansky, and M. Bonitz,
    On the Interpretation of the Schwinger and Landau-Zener effects
    Theoretical Physics No. 8, 95-100 (2007), in Russian
    download pdf-file
  7. C. Henning, P. Ludwig, A. Filinov, A. Piel, and M. Bonitz,
    Ground state of a confined Yukawa plasma including correlation effects,
    Physical Review E 76, 036404 (2007) | link |
    ArXiv: physics/0705.1221v1 | local pdf-file
  8. M. Bonitz, K. Balzer, and R. van Leeuwen,
    Invariance of the Kohn (sloshing) mode in a conserving theory, Physical Review B 76, 045341 (2007)| ArXiv: cond-mat/0702633 | local pdf-file
  9. D. Block, M. Kroll, O. Arp, A. Piel S. Käding, Y. Ivanov, A. Melzer, C. Henning, H. Baumgartner, P. Ludwig, and M. Bonitz,
    Structural and dynamical properties of Yukawa balls,
    Plasma Physics and Controlled Fusion 49, B109-B116 (2007) | link
  10. E.E. Krasovskii, and M. Bonitz,
    Spectral Line Shape Variations in Time-Resolved Photoemission from a Solid,
    Physical Review Letters 99, 247601 (2007) |
    download pdf-file
    This paper has been selected for the January 2008 issue of Virtual Journal of Ultrafast Science,
    published by the American Physical Society and the American Institute of Physics.
  11. M. Bonitz,
    Buchrezension zu Coherent Semiconductor Optics, Torsten Meier, Peter Thomas, Stephan W. Koch
    Physik Journal, Juni 2007
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2006

Papers

  1. Introduction to Computational Methods in Many-Body Physics,
    Michael Bonitz and Dirk Semkat (Eds.), Rinton Press, Princeton, 2006
    Authors: George F. Bertsch, Michael Bonitz, Alexei Filinov, Vladimir S. Filinov, Dirk Semkat, and Hartmut Ruhl.
    Book Information
  2. Progress in Nonequilibrium Greens's Functions III,
    Michael Bonitz and A. Filinov (Eds.), Refereed review papers
    Special issue of Journal of Physics: Conference Series, volume 35 (2006), published by Institute of Physics
    Book Information
    Contents and pdf-files of articles are freely available from this link to IoP
  3. M. Bonitz, and A. Filinov,
    Preface
    J. Phys: Conf. Series 35, i (2006) | link
  4. M. Bonitz,
    Introduction,Chapter in: Introduction to Computational Methods in Many-Body Physics,
    Rinton Press, Princeton, 2006
    Book Information
  5. A. V. Filinov and M. Bonitz,
    Classical and Quantum Monte Carlo, Chapter in: Introduction to Computational Methods in Many-Body Physics,
    Rinton Press, Princeton, 2006
    Book Information
  6. M. Bonitz, and D. Semkat,
    Generalized Quantum Kinetic Equations, Chapter in: Introduction to Computational Methods in Many-Body Physics,
    Rinton Press, Princeton, 2006
    Book Information
  7. A. V. Filinov, V. S. Filinov, Yu. E. Lozovik, and M. Bonitz,
    Quantum Molecular Dynamics, Chapter in: Introduction to Computational Methods in Many-Body Physics,
    Rinton Press, Princeton, 2006
    Book Information
  8. V.S. Filinov, M. Bonitz, V.E. Fortov, W. Ebeling, H. Fehske, D. Kremp, W.D. Kraeft, V. Bezkrovny, and P. Levashov,
    Monte Carlo simulations of dense quantum plasmas
    J. Phys. A: Math. Gen. 39, 4421 (2006) | link | local pdf-file
  9. M. Bonitz, D. Block, O. Arp, V. Golubnychiy, H. Baumgartner, P. Ludwig, A. Piel, and A. Filinov,
    Structural properties of screened Coulomb balls,
    Physical Review Letters 96, 075001 (2006) | local pdf-file | ArXiv: physics/0508212
  10. M. Bonitz, V.S. Filinov, V.E. Fortov. P.R. Levashov, and H. Fehske,
    Crystallization of holes in semiconductors
    J. Phys. A: Math. Gen. 39, 4717 (2006) | link | local pdf-file
  11. V. Golubnychiy, H. Baumgartner, M. Bonitz, A. Filinov, and H. Fehske,
    Screened Coulomb balls - structural properties and melting behavior
    J. Phys. A: Math. Gen. 39, 4527 (2006) | link | local pdf-file
  12. W. Ebeling, A. Filinov, M. Bonitz, V. Filinov, and T. Pohl,
    The Method of Effective Potentials in the Quantum-Statistical Theory of Plasmas
    J. Phys. A: Math. Gen. 39, 4309 (2006) | link | local pdf-file
  13. P.R. Levashov, V. Filinov, M. Bonitz, and V.E. Fortov,
    Path integral Monte Carlo calculations of helium and hydrogen-helium plasma thermodynamics and deuterium shock Hugoniot
    J. Phys. A: Math. Gen. 39, 4447 (2006) | link | local pdf-file
  14. K. Balzer, C. Nölle, M. Bonitz, and A. Filinov,
    Energy spectrum of strongly correlated particles in quantum dots
    J. Phys: Conf. Series 35, 209 (2006) | link | local pdf-file
  15. A. Filinov, P. Ludwig, Yu.E. Lozovik, M. Bonitz, and H. Stolz,
    Strongly correlated indirect excitons in quantum wells in high electric fields
    J. Phys: Conf. Series 35, 197 (2006) | link | local pdf-file
  16. W.D. Kraeft and M. Bonitz,
    Thermodynamics of a Correlated Confined Plasma. I. Macroscopic System
    J. Phys: Conf. Series 35, 78 (2006) | link | local pdf-file
  17. W.D. Kraeft and M. Bonitz,
    Thermodynamics of a Correlated Confined Plasma. II. Mesoscopic System
    J. Phys: Conf. Series 35, 94 (2006) | link| local pdf-file
  18. D. Kremp, D. Semkat, Th. Bornath, M. Bonitz, M. Schlanges, and P. Hilse,
    Partially ionized plasmas in electromagnetic fields
    J. Phys: Conf. Series 35, 53 (2006) | link | local pdf-file | ArXiv: cond-mat/0602171
  19. M. Bonitz and A. Filinov,
    In memoriam: Wilfried Schäfer
    J. Phys: Conf. Series 35, i (2006) | link | local pdf-file
  20. P. Ludwig, A. Filinov, M. Bonitz, and H. Stolz,
    Quantum Stark confined stongly correlated indirect excitons in quantum wells
    phys. stat. sol. (b) 243, No. 10 2363-2366 (2006) | link
  21. A. Filinov, M. Bonitz, P. Ludwig, and Yu.E. Lozovik,
    Path integral Monte Carlo results for Bose condensation of mesoscopic indirect excitons
    phys. stat. sol. (c) 3, No. 7, 2457-2460 (2006) | link
  22. K. Balzer, C. Nölle, M. Bonitz, and A. Filinov,
    Energy spectrum of strongly correlated electrons and indirect excitons in quantum dots
    phys. stat. sol. (c) 3, No. 7, 2402-2405 (2006) | link
  23. C. Henning, H. Baumgartner, A. Piel, P. Ludwig, V. Golubnychiy, M. Bonitz, and D. Block,
    Ground state of a confined Yukawa plasma,
    Phys. Rev. E 74, 056403 (2006) | local pdf-file | ArXiv: physics/0607203
  24. M. Bonitz, V.S. Filinov, A. Filinov, V. Golubnychiy, P. Ludwig, H. Baumgartner, P. Levashov, V.E. Fortov, and H. Fehske,
    Structure Formation in Strongly Correlated Coulomb Systems,
    in: Irreversible Prozesse und Selbstorganisation , T. Pöschel, H. Malchow, L. Schimansky-Geier (eds.), Logos-Verlag Berlin (2006), pp. 143-158
    download pdf-file
  25. P. Levashov, V.S. Filinov, M. Bonitz, and V.E. Fortov,
    Path integral Monte Carlo calculations of dense of hydrogen and helium thermodynamics,
    J. Plasma Phys. 72, 813-816 (2006) | link
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2005

  1. M. Bonitz, V.S. Filinov, V.E. Fortov. P.R. Levashov, and H. Fehske,
    Crystallization in Two-Component Coulomb Systems
    Phys. Rev. Lett. 95, 235006 (2005) ,
    download pdf-file
    Physical Review Focus story by Kim Krieger on our research
    Pictures, Animations and Popular explanation
  2. Kinetic Theory of Nonideal Plasmas,
    Michael Bonitz and Wolf-Dietrich Kraeft (Eds.),
    Journal of Physics: Conference Series 11 (2005)
    Contents and pdf-files are freely available from this link to IoP
  3. M. Bonitz, and W.D. Kraeft, Kinetic Theory of Nonideal Plasmas, Preface
    Journal of Physics: Conference Series 11, vii (2005) | link | local pdf-file
  4. R. Balescu, S. Trigger, M. Bonitz, and W.D. Kraeft, A tribute to Yuri Klimontovich
    Journal of Physics: Conference Series 11, ix-xiii (2005) | link | local pdf-file
  5. P. Ludwig, S. Kosse, and M. Bonitz,
    Structure of spherical three-dimensional Coulomb crystals,
    Phys. Rev. E 71, 046403 (2005) | local pdf-file
  6. V.S. Filinov, P. Levashov, M. Bonitz, and V.E. Fortov,
    Thermodynamics of Hydrogen and Hydrogen-Helium Plasmas: Path Integral Monte Carlo Calculations and Chemical Picture,
    Contrib. Plasma Phys. 45, 258-265 (2005) | link | local pdf-file
  7. D. Semkat, D. Kremp, and M. Bonitz,
    Bloch equations for the ionization kinetics in partially ionized plasmas,
    Journal of Physics: Conference Series 11, 25-36 (2005) | link | local pdf-file
  8. J.W. Dufty, and M. Bonitz,
    Kinetic Theory for Metallic Clusters II. Klimontovich Equation Approach,
    Journal of Physics: Conference Series 11, 47-60 (2005) | link | local pdf-file
  9. O. Arp, D. Block, M. Bonitz, H. Fehske, V. Golubnychiy, S. Kosse, P. Ludwig, A. Melzer, and A. Piel,
    3D Coulomb Balls: Experiment and Simulation,
    Journal of Physics: Conference Series 11, 234-247 (2005) | link | local pdf-file
  10. V.S. Filinov, P. Levashov, M. Bonitz, and V.E. Fortov,
    Calculation of the shock Hugoniot of deuterium at pressures above 1 Mbar by the path-integral Monte Carlo method,
    Plasma Physics Reports 31, 700-704 (2005) | link
  11. D. Kremp, D. Semkat, and M. Bonitz,
    Short-time kinetics and initial correlations in quantum kinetic theory,
    Journal of Physics: Conference Series 11, 1-13 (2005) | link | local pdf-file
  12. H. Fehske, V.S. Filinov, M. Bonitz, P. Levashov, and V.E. Fortov,
    Exciton formation and dissociation in mass-asymmetric semiconductors,
    Journal of Physics: Conference Series 11, 139-146 (2005) | link | local pdf-file
  13. A.S. Bracker, E.A. Stinaff, D. Gammon, M.E. Ware, J.G. Tischler, D. Park, D. Gershoni, A.V. Filinov, M. Bonitz, F.M.Peeters, and C. Riva,
    Binding energy of positive and negative trions: from quantum wells to quantum dots
    Phys. Rev. B 72, 035332 (2005) | local pdf-file
  14. M. Bonitz, A. Filinov, V. Golubnychiy, Th. Bornath, and W.D. Kraeft,
    First principle thermodynamic and dynamic simulations for dense quantum plasmas,
    Contrib. Plasma Physics 45, 450-458 (2005) | link | local pdf-file
  15. D. Kremp, Th. Bornath, M. Bonitz, D. Semkat, and M. Schlanges,
    Interaction of Partially Ionized Plasmas with Electromagnetic Fields,
    Contrib. Plasma Physics 45, 396-404 (2005) | link
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2004

  1. M. Bonitz, B.B. Zelener, E.A. Manykin, V.S. Filinov, and V.E. Fortov,
    Thermodynamics and correlation functions in ultra-cold nonideal Rydberg matter,
    JETP 98, 719-727 (2004) [ZhETF 125, 821-830 (2004)] | link | local pdf-file
  2. A. Filinov, V. Golubnychiy, M. Bonitz, W. Ebeling, and J.W. Dufty,
    Temperature-dependent quantum pair potentials and their application to dense partially ionized hydrogen plasmas,
    Phys. Rev. E 70, 046411 (2004) | ArXiv: cond-mat/0310665 | local pdf-file
  3. M. Bonitz, and J.W. Dufty,
    Quantum kinetic theory of confined electrons in a strong time-dependent field,
    Superlattices and Microstructures 34 No. 3-6, 225-229 (2003) | link | local pdf-file
  4. V. Golubnychiy, P. Ludwig, A.V. Filinov, and M. Bonitz,
    Controlling intershell rotations in mesoscopic electron clusters,
    Superlattices and Microstructures 34 No. 3-6, 219-224 (2003) | link | local pdf-file
  5. V.S. Filinov, P. Thomas, M. Bonitz, V.E. Fortov, I. Varga, and T. Meier,
    Wigner approach to quantum dynamics simulations of the interacting carriers in disordered systems
    phys. stat. sol. (b) 241, No. 1, 40-46 (2004) | link | local pdf-file
  6. A.V. Filinov, C. Riva, F.M. Peeters, Yu.E. Lozovik, and M. Bonitz,
    Influence of well width fluctuations on the binding energy of excitons, charged excitons and biexcitons in GaAs-based quantum wells,
    Phys. Rev. B 70, 035323 (2004) ( ArXiv: cond-mat/0401466)
    download local pdf-file (428K)
  7. M. Bonitz and V.S. Filinov,
    Thermodynamic and transport properties of dense quantum Coulomb systems,
    p. 443-452 in: NIC Symposium 2004, NIC Series, vol. 20, eds. D. Wolf, G. Münster, M. Kremer.
    download pdf-file (236K)
  8. M. Bonitz and J.W. Dufty,
    Quantum Kinetic Theory of Metal Clusters in an Intense Electromagnetic Field I,
    Condensed Matter Physics 7, 483-525 (2004) | link | local pdf-file
  9. V. Bezkrovniy, V.S. Filinov, D. Kremp, M. Bonitz, M. Schlanges, W.D. Kraeft, P.R. Levashov, and V.E. Fortov,
    Monte Carlo results for the hydrogen Hugoniot
    Phys. Rev. E 70, 057401 (2004) ( ArXiv: physics/0405140)
    download local pdf-file (126K)
  10. A.V. Filinov, F.M. Peeters, C. Riva, Yu.E. Lozovik, and M. Bonitz,
    Exciton Molecules in quantum wells: influence of the well width fluctuations
    Few-Body Systems 34, 149-156 (2004) | link | local pdf-file
  11. V.S. Filinov, V.E. Fortov, P.R. Levashov, and M. Bonitz,
    Quantum generalization of molecular dynamics method. Wigner approach
    Lecture Notes in Computer Science, vol. 3044, 402-411 (2004) | link
  12. V. Filinov, M. Bonitz, V.E. Fortov, W. Ebeling, P. Levashov, and M. Schlanges,
    Thermodynamic Properties and Plasma Phase Transition in Dense Hydrogen,
    Contrib. Plasma Phys. 44, 388-394 (2004) | link | local pdf-file
  13. V. Filinov, P. Levashov, M. Bonitz, and V.E. Fortov,
    Plasma Phase Transitions in Dense Hydrogen-helium plasmas,
    AIP conference proceedings, vol. (2004)
    download pdf-file
  14. P. Ludwig, S. Kosse, V. Golubnychiy, M. Bonitz, and H. Fehske,
    Tables of mesoscopic 3D Coulomb balls,
    Preprint at ArXiv: physics/0409100
    download ps-file
  15. M. Bonitz,
    Buchrezension zu: Quantum Theory of the Optical and Electronic Properties of Semiconductors, H. Haug und S.W. Koch
    Physik Journal, (2004).
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2003

  1. M. Bonitz,
    Progress in Nonequilibrium Green's Functions. 285th WE-Heraeus-Seminar
    Physik Journal, 2 (2003), p. 54 (in German)
  2. M. Bonitz and D. Semkat (Eds.),
    Progress in Nonequilibrium Green's Functions II
    World Scientific, Singapore 2003
  3. S.A. Trigger, W. Ebeling, V.S. Filinov, V.E. Fortov, M. Bonitz,
    Internal energy of high density Hydrogen: Analytical approximations compared with path integral Monte Carlo calculations,
    JETP 96, 465-479 (2003) | link | local pdf-file | ArXiv: physics/0110013
  4. V.S. Filinov, W. Hoyer, M. Bonitz, M. Kira, V.E. Fortov, and S.W. Koch,
    Spontaneous emission of semiconductors in the Wigner approach
    J. Opt. B: Quantum Semiclass. Opt. 5, 299-305 (2003) | link | local pdf-file
  5. V.S. Filinov, P. Thomas, I. Varga, T. Meier, M. Bonitz, V.E. Fortov, and S.W. Koch,
    Electronic transport in a one-dimensional random array of scatterers
    J. Phys. A: Math. Gen. 36, 5905-5911 (2003) | link | local pdf-file
  6. V.S. Filinov, M. Bonitz, P.R. Levashov, V.E. Fortov, W. Ebeling, M. Schlanges, and S.W. Koch,
    Plasma Phase Transition in Dense Hydrogen and Electron-Hole Plasmas
    J. Phys. A: Math. Gen. 36, 6069-6076 | link | local pdf-file
  7. M. Bonitz, D. Semkat, A. Filinov, V. Golubnychyi, D. Kremp, D.O. Gericke, M.S. Murillo, V. Filinov, V.E. Fortov, W. Hoyer, and S.W. Koch,
    Theory and Simulation of Strong Correlations in Quantum Coulomb Systems
    J. Phys. A: Math. Gen. 36, 5921-5930 (2003) | link | local pdf-file ,
  8. A. Filinov, M. Bonitz, and W. Ebeling,
    Improved Kelbg potential for correlated Coulomb systems
    J. Phys. A: Math. Gen. 36, 5957-5962 (2003) | link | local pdf-file
  9. A. Filinov, M. Bonitz, and Yu.E. Lozovik,
    Excitonic clusters in coupled quantum dots
    J. Phys. A: Math. Gen. 36, 5899-5904 (2003) | link | local pdf-file
  10. D.O. Gericke, M.S. Murillo, D. Semkat, M. Bonitz, and D. Kremp,
    Relaxation of Strongly Coupled Coulomb Systems after Rapid Changes of the interaction potential
    J. Phys. A: Math. Gen. 36, 6087-6093 (2003) | link | local pdf-file
  11. D.O. Gericke, M.S. Murillo, M. Bonitz, and D. Semkat,
    Temperature estimates for quantum systems after an ionization iduced rapid switch of the spin statistics
    J. Phys. A: Math. Gen. 36, 6095-6101 (2003) | link | pdf-file
  12. A.V. Filinov, P. Ludwig, V. Golubnychyi, M. Bonitz, and Yu.E. Lozovik,
    Equlibrium and dynamical properties of few particle systems in quantum dots and bilayers phys. stat. sol. (c) 0, No. 5, 1518-1522 (2003) | link | preliminary pdf-file (227K)
    (Note: WILEY-VCH does not allow posting of the final paper files)
  13. A.V. Filinov, M. Bonitz, and Yu.E. Lozovik,
    First principles approach to binding energies of excitons, trions and biexcitons in quantum wells,
    phys. stat. sol. (c) 0, No.5, 1441-1444 (2003) | link |
    local (preliminary) pdf-file (171K)
    (Note: WILEY-VCH does not allow posting of the final paper files)
  14. M. Bonitz, W. Ebeling, and Yu.M. Romanovsky,
    Contributions of Yuri L. Klimontovich to the Kinetic Theory of Nonideal Plasmas,
    Contrib. Plasma Phys. 43, 247-251 (2003)
    DOI: 10.1002/ctpp.200310019 | pdf-file
  15. M. Bonitz,
    In memoriam Yuri Klimontovich (1924-2002)
    in: Progress in Nonequilibrium Green's functions II, M. Bonitz and D. Semkat (Eds.), World Scientific Publ. 2003, pp. vii-viii
    link
  16. M. Bonitz, D. Semkat, D. Kremp, and V.S. Filinov
    Combination of Quantum Kinetic and First-Principle Simulations
    in: Progress in Nonequilibrium Green's functions II, M. Bonitz and D. Semkat (Eds.), World Scientific Publ. 2003, pp. 445-463
    link
  17. V. Golubnychiy, A.V. Filinov, and M. Bonitz,
    Intershell Rotation Barriers of Mesoscopic 2D Coulomb Clusters
    in: Progress in Nonequilibrium Green's functions II, M. Bonitz and D. Semkat (Eds.), World Scientific Publ. 2003, pp. 338-346
    link
  18. D. Semkat, M. Bonitz, D. Kremp, M.S. Murillo, and D.O. Gericke,
    Correlation induced heating and cooling of many-body systems
    pp. 83-93 in: Progress in Nonequilibrium Green's functions II, M. Bonitz and D. Semkat (Eds.), World Scientific Publ. 2003
    link
  19. M. Bonitz, D. Semkat, M.S. Murillo, and D.O. Gericke,
    Short-Time Dynamics of Quantum Many-Body Systems Following a Spin Statistics Switch
    pp. 94-102 in: Progress in Nonequilibrium Green's functions II, M. Bonitz and D. Semkat (Eds.), World Scientific Publ. 2003
    link
  20. A.V. Filinov, M. Bonitz, and Yu.E. Lozovik,
    Path Integral Monte Carlo Simulations of Bound States Semiconductor Quantum Wells: Excitons, Trions and Biexcitons,
    in: Progress in Nonequilibrium Green's functions II, M. Bonitz and D. Semkat (Eds.), World Scientific Publ. 2003, pp. 436-444
    link
  21. V. Filinov, M. Bonitz, P. Levashov, V.E. Fortov, W. Ebeling, and M. Schlanges,
    Plasma Phase Transition in Hydrogen and Electron-Hole Plasmas,
    Contrib. Plasma Phys. 43, 290-294 (2003)
    DOI: 10.1002/ctpp.200310030 | pdf-file
  22. D. Semkat, M. Bonitz, and D. Kremp,
    Relaxation of a quantum many-body system from a correlated initial state. A general and consistent approach,
    Contrib. Plasma Phys. 43, No. 5-6, 321-325 (2003)
    DOI: 10.1002/ctpp.200310037 | pdf-file
  23. P. Ludwig, A. Filinov, M. Bonitz, and Yu.E. Lozovik,
    Ground state and structural transitions in mesoscopic electron-hole bilayers,
    Contrib. Plasma Phys. 43, No. 5-6 285-289 (2003)
    DOI: 10.1002/ctpp.200310029 | pdf-file
  24. Ein Kristall aus Elektronen für die Computertechnik
    in: Faszinierende Forschung,
    Reader's Digest, Verlag Das Beste GmbH Stuttgart, Zürich, Wien 2003
top of page

2002

  1. M. Bonitz, "Quantendynamik korrelierter Coulombsysteme", Physik Journal Juli/August 2002, download pdf-file (500K) oder Kommentare und Ergänzungen  
    Preisträger-Artikel aus Anlass der Verleihung des Gustav-Hertz-Preises 2002 der Deutschen Physikalischen Gesellschaft
  2. M. Bonitz, P.R. Levashov, I.A. Mulenko, E.N. Oleinikova, V.S. Filinov, V.E. Fortov, and A.L Chomkin,
    Suppression of the dissociation phase transition in plasma mixtures of molecular and noble gases,
    Plasma Physics Reports 28, 484 (2002)
    [Fizika Plasmy 28, No. 6 (2002) (Russian journal of plasma physics, in Russian)]
    DOI: 10.1134/1.1485652 | local file
  3. V. Golubnychiy, M. Bonitz, D. Kremp, and M. Schlanges, Plasmon dispersion of a weakly degenerate nonideal one-component plasma,
    Contrib. Plasma Phys. 42, 37 (2002),
    DOI: | ArXiv: cond-mat/0104094 | pdf-file
  4. M. Bonitz and D. Semkat,
    Comment on ``Using Fermi Statistics to Create Strongly Coupled Ion Plasmas in Atom Traps'',
    ArXiv: physics/0109071
  5. M. Bonitz, V. Golubnychiy, A.V. Filinov and Yu.E. Lozovik,
    Single-Electron control of Wigner crystallization,
    Microelectronic Engineering, 63, 141-145 (2002) | link | local pdf-file | ArXiv: cond-mat/0112221
  6. V.S. Filinov, P. Thomas, I. Varga, T. Meier, M. Bonitz, V. Fortov, and S.W. Koch,
    Interacting electrons in a random array of scatterers - A Quantum Dynamics and Monte-Carlo study,
    Phys. Rev. B 65, 165124 (2002) 
    download local pdf-file (227K)
  7. D. Semkat, D. Kremp, and M. Bonitz,
    Generalized T-matrix approximation in quantum kinetic equations
    Contrib. Plasma Phys. 42, 31 (2002) | link | local pdf-file (136K)
  8. P.R. Levashov, V.S. Filinov, V.E. Fortov, and M. Bonitz,
    Thermodynamic Properties of Nonideal Strongly Degenerate Hydrogen Plasma
    in: Shock Compression of Condensed Matter - 2001., Eds. M.D. Furnish, N.N. Thadhani, and Y. Horie, American Institute of Physics, 2002, p. 119
  9. P.R. Levashov, V.S. Filinov, V.E. Fortov, and M. Bonitz,
    Authors' Reply
    in: Shock Compression of Condensed Matter - 2001., Eds. M.D. Furnish, N.N. Thadhani, and Y. Horie, American Institute of Physics, 2002 p. 125
top of page

2001

  1. A.V. Filinov, M. Bonitz, and Yu.E. Lozovik,
    Wigner crystallization in mesoscopic 2D electron systems,
    Phys. Rev. Lett. 86, 3851 (2001); (ArXiv: cond-mat/0012265)
    This paper is featured in Physical Review Focus, April 19 2001,
    Wissenschaft Online, April 24 2001
    Spektrum der Wissenschaft (Scientific American, German edition) June 2001, p. 25
    Sciences et Avenir , June 2001, p. 20
    Science Section of Frankfurter Allgemeine Zeitung, August 1 2001
  2. K. Morawetz, M. Bonitz, V.G. Morozov, G. Röpke, and D. Kremp,
    Short-time dynamics with initial correlations,
    Phys. Rev. E, Rapid Commun. 63, 020102-1 (2001) | link | arXiv: phys/9905024
  3. A.V. Filinov, M. Bonitz, and Yu.E. Lozovik, Two-dimensional electron crystals in single and double layers,
    Contrib. Plasma Phys. 41, 357 (2001), | link |
    ArXiv: cond-mat/0102279 | local pdf-file
  4. V.S. Filinov, M. Bonitz, D. Kremp, W.D. Kraeft, and V.E. Fortov,
    Path integral Monte Carlo simulations and analytical approximations for high-temperature plasmas
    Lecture Notes in Computer Science, vol. Springer (2001)
  5. M. Bonitz, V. Golubnichiy, N.H. Kwong, D. Semkat, D. Kremp, V.S. Filinov, and M. Schlanges, Dielectric properties of correlated quantum plasmas,
    Contrib. Plasma Phys. 41, 155 (2001) | link | pdf-file | arXiv
  6. V.S. Filinov, M. Bonitz, W. Ebeling, and V.E. Fortov,
    Thermodynamics of hot dense H-plasmas: Path integral Monte Carlo simulations and analytical approximations
    Plasma Physics and Controlled Fusion 43, 743-759 (2001),
    DOI: 10.1088/0741-3335/43/6/301 | local file |
    arXiv: physics/0103002
  7. H. Haberland, M. Bonitz, and D. Kremp,
    Harmonics generation in electron-ion collisions in a strong laser pulse
    Phys. Rev. E 64, 026405 (2001)
    local file | (ArXiv: cond-mat/0011521)
  8. V.S. Filinov, M. Bonitz, D. Kremp, W.D. Kraeft, W. Ebeling, P.R. Levashov, and V.E. Fortov,
    Path integral simulations of the thermodynamic properties of quantum dense plasma
    Contrib. Plasma Phys. 41, 135 (2001) | link | local pdf-file
  9. J.R. Madureira, D. Semkat, M. Bonitz, R. Redmer,
    Field effects on Semiconductors: Impact Ionization Rate Including Collision Broadening,
    J. App. Phys. 90, 829 (2001)
    DOI: 10.1063/1.1381554 | local pdf-file
  10. V. Golubnychiy, M. Bonitz, D. Kremp, and M. Schlanges,
    Dynamical properties and plasmon dispersion of a weakly degenerate correlated one-component plasma,
    Phys. Rev. E 64, 016409 (2001) ( ArXiv: physics/0012027)
  11. D. Kremp, Th. Bornath, P. Hilse, H. Haberland, M. Schlanges, and M. Bonitz,
    Quantum Kinetic Theory of Laser Plasmas,
    Contrib. Plasma Phys. 41, 259 (2001)
    DOI: 10.1002/1521-3986(200103)41:2/3%3C259::AID-CTPP259%3E3.0.CO;2-L | local pdf-file
  12. M. Bonitz, I.A. Mulenko, E.N. Oleinikova, V.S. Filinov, V.E. Fortov, and A.L Chomkin,
    Dissociation Phase Transition in high-density hydrogen and deuterium,
    Plasma Physics Reports 27, 1025 (2001)
    [Fizika Plasmy 27, 1085 (2001) (Russian journal of plasma physics, in Russian)] | link | local pdf-file (130K)
  13. I.A. Mulenko, E.N. Olejnikova, A.L. Khomkin, V.S. Filinov, M. Bonitz, and V.E. Fortov,
    Phase Transition in Dense low-temperature molecular gases,
    Phys. Lett. A 289, 141-146 (2001)
    DOI: 10.1016/S0375-9601(01)00616-8 | local pdf-file
  14. V.S. Filinov, V.E. Fortov, M. Bonitz, and P.R. Levashov,
    Phase Transition in strongly degenerate hydrogen plasma,
    JETP Letters 74, 384 (2001), [Pis'ma v ZhETF 74, 422 (2001)],
    download pdf-file | ArXiv: cond-mat/0108348
top of page

2000

  1. Progress in Nonequilibrium Green's functions,
    M. Bonitz (Ed.),
    World Scientific Publ. 2000
  2. N.H. Kwong, and M. Bonitz,
    Real-time Kadanoff-Baym Approach to Nonlinear Plasma Oscillations in a Correlated Electron Gas,
    Phys. Rev. Lett. vol. 84, p. 1768 (2000) | ArXiv: cond-mat/9912053 | local pdf-file
  3. V.S. Filinov, M. Bonitz, and V.E. Fortov,
    High density phenomena in hydrogen plasma,
    JETP Lett., vol. 72, p. 245 (2000), Pisma v ZhETF, vol. 72, p. 361 (2000)
  4. M. Schlanges, Th. Bornath, D. Kremp, M. Bonitz, and P. Hilse,
    Kinetic theory to the electrical conductivity of dense plasmas in strong laser fields
    J. Phys. IV France vol. 10, Pr5-323 (2000)
  5. Th. Bornath, M. Schlanges, P. Hilse, D. Kremp, and M. Bonitz,
    Quantum kinetic theory of plasmas in strong laser fields
    Laser and Particle Beams 18, 535 (2000)
    DOI: 10.1017/S0263034600183260
  6. M. Bonitz, J.-F. Lampin, F.-X. Camescasse, and A.Alexandrou,
    Nonequilibrium plasmons in optically excited semiconductors
    Phys. Rev. B 62, 15724 (2000) | pdf-file
  7. V.S. Filinov, and M. Bonitz,
    Thermodynamic properties of nonideal strongly degenerate Fermi systems, ArXiv: cond-mat/9912049
  8. D. Semkat, D. Kremp, and M. Bonitz,
    Kadanoff-Baym equations and non-Markovian Boltzmann equation in generalized T-matrix approximation
    J. Math. Phys. 41, 7458 (2000),
    journal link | ArXiv: cond-mat/9912384 | local file
  9. D. Kremp, Th. Bornath, M. Bonitz, W.D. Kraeft, and M. Schlanges,
    Quantum Kinetic Equations for Nonideal Plasmas Bound States and Ionization Kinetics
    Physics of Plasmas 7 , 59 (2000)
    DOI: 10.1063/1.873781 | local file
  10. V.S. Filinov, P.R. Levashov, V.E. Fortov, and M. Bonitz,
    Wigner function quantum molecular dynamics for dense quantum plasmas
    J. Phys. IV France vol. 10, Pr5-145 (2000)
  11. V.S. Filinov, V.E. Fortov, M. Bonitz, and D. Kremp,
    Pair distribution functions of dense partially ionized hydrogen
    Physics Lett. A 274, 228 (2000)
    DOI: 10.1016/S0375-9601(00)00554-5 | local file
  12. A.V. Filinov, Yu.E. Lozovik, and M. Bonitz,
    Path integral simulations of crystallization of quantum confined electrons,
    phys. stat. sol. (b) 221, 231 (2000)
    DOI: 10.1002/1521-3951(200009)221:1%3C231::AID-PSSB231%3E3.0.CO;2-D
  13. D. Kremp, D. Semkat, and M. Bonitz,
    Kadanoff-Baym equations with initial correlations
    In: Progress in Nonequilibrium Green's functions, M. Bonitz (Ed.), World Scientific Publ. 2000
  14. N.H. Kwong, and M. Bonitz,
    Real-time Kadanoff-Baym approach to plasma oscillations in correlated Coulomb systems
    In: Progress in Nonequilibrium Green's functions , M. Bonitz(Ed.), World Scientific Publ. 2000
  15. H.S. Köhler, N.H. Kwong, R. Binder, D. Semkat, and M. Bonitz,
    Numerical Solutions of the Kadanoff-Baym Equations
    In: Progress in Nonequilibrium Green's functions , M. Bonitz (Ed.), World Scientific Publ. 2000
  16. M. Bonitz, H. Haberland, D. Kremp, Th. Bornath, M. Schlanges, and P. Hilse,
    Quantum kinetic theory for plasmas in strong laser fields
    In: Progress in Nonequilibrium Green's functions , M. Bonitz (Ed.), World Scientific Publ. 2000
  17. V.S. Filinov, P.R. Levashov, V.E. Fortov, and M. Bonitz,
    Quantum dynamics and thermodynamic properties of degenerate dense Coulomb Systems
    In: Progress in Nonequilibrium Green's functions , M. Bonitz (Ed.), World Scientific Publ. 2000
  18. D.O. Gericke, S. Kosse, M. Schlanges, and M. Bonitz,
    Combination of strong coupling and dynamical screening effects
    In: Progress in Nonequilibrium Green's functions , M. Bonitz (Ed.), World Scientific Publ. 2000
  19. D. Semkat, and M. Bonitz,
    Non-Lorentzian spectral functions for Coulomb systems
    In: Progress in Nonequilibrium Green's functions , M. Bonitz (Ed.), World Scientific Publ. 2000
  20. H. Haberland, D. Semkat, and M. Bonitz,
    Quantum and Spin Statistics Effects in the ultrafast relaxation of correlated Coulomb systems
    In: Progress in Nonequilibrium Green's functions , M. Bonitz (Ed.), World Scientific Publ. 2000
top of page

1999

  1. M. Bonitz, N.H. Kwong, D. Semkat, and D. Kremp, Generalized Kadanoff-Baym theory for nonequilibrium many-body systems in external fields. An effective multi-band approach,
    Contr. Plasma Phys. 39, 37 (1999)
    DOI: 10.1002/ctpp.2150390109 | local file
  2. D.O. Gericke, S. Kosse, M. Schlanges, and M. Bonitz,
    T-matrix approach to equilibrium and nonequilibrium carrier-carrier scattering in semiconductors,
    Phys. Rev. B 59, 10639 1999 | pdf-file
  3. J.F. Lampin, F.X. Camescasse, A. Alexandrou, M. Bonitz, and V. Thierry-Mieg,
    Experimental evidence for the effect of acoustic plasmons on carrier relaxation in bulk semiconductors,
    Phys. Rev. B, Rapid Comm., 60, R8453 (1999) | pdf-file
  4. D. Semkat, D. Kremp, and M. Bonitz,
    Kadanoff-Baym equations with initial correlations,
    Phys. Rev. E 59, 1557 (1999) | pdf-file
  5. M. Bonitz, D. Semkat and H. Haug,
    Non-Lorentzian spectral functions for Coulomb quantum kinetics,
    Europ. Phys. J. B 9, 309 (1999)
    DOI: 10.1007/s100510050770 | local pdf-file
  6. D. Kremp, Th.Bornath, M. Bonitz, and M. Schlanges,
    Quantum Kinetic Theory of Plasmas in Strong Laser Fields,
    Phys. Rev. E 60, 4725 (1999) | pdf-file
  7. M. Bonitz, Th. Bornath, D. Kremp, M. Schlanges, and W.D. Kraeft, Quantum kinetic theory for laser plasmas. Dynamical screening in strong fields,
    Contrib. Plasma Phys. 39, 329 (1999),
    DOI: 10.1002/ctpp.2150390407 | arXiv: cond-mat/9912058 | local file
  8. J. F. Lampin, F. X. Camescasse, A. Alexandrou, and M. Bonitz,
    Experimental evidence of the role of acoustic plasmons in carrier relaxation dynamics in bulk semiconductors
    Proceedings of the QELS, Anaheim (CA, USA) 1999
  9. Annual Report of the EU Network "SILASI", P. Mulser (Ed.),
    D. Kremp, Th. Bornath, M. Bonitz, and M. Schlanges,
    Kinetic equations for quantum plasmas in strong laser fields.
top of page

1998

  1. M. Bonitz,
    Quantum Kinetic Theory,
    B.G. Teubner, Stuttgart/Leipzig 1998
  2. M. Bonitz, Quantum Kinetic Theory of Ultrafast Relaxation Processes. From Density Operators to Kadanoff-Baym equations,
    Habilitation Thesis, Rostock University 1998
  3. M. Bonitz, J.W. Dufty and Chang-Sub Kim, Density Operator approach to non-Markovian Semiconductor Bloch Equations,
    phys. stat. sol. (b) 206, 181 (1998) | link | local file
  4. N.H. Kwong, M. Bonitz, R. Binder and S. Köhler, Semiconductor Kadanoff-Baym Equations Results for Optically Excited Electron-Hole Plasmas in Quantum Wells,
    phys. stat. sol. (b) 206, 197 (1998) | link | local file
  5. D. Gericke, S. Kosse, M. Schlanges and M. Bonitz,
    Strong Correlation (T-matrix) Effects in Electron-Hole Plasmas in Semiconductors
    phys. stat. sol. (b) 206, 257 (1998) | link | local file
  6. M. Bonitz, D. Semkat, N.H. Kwong and D. Kremp,
    Ultrafast Relaxation in Strongly Coupled Coulomb Systems,
    Proceedings of the Conference on Strongly Coupled Coulomb Systems, Boston (MA), August 1997, G. Kalman (ed.)

    Plenum Press 1998
  7. D. Semkat, M. Bonitz, and D. Kremp,
    Generalized Kadanoff-Baym equations with initial correlations,
    in: Physical Processes on Short Time Scales,

    K. Morawetz (ed.), Rostock University Press 1998
top of page

1997

  1. D. Kremp, M. Bonitz, W. D. Kraeft, M. Schlanges,
    Non-Markovian Boltzmann equation,
    Annals of Phys. (NY) 258, 320 (1997) | link | local pdf-file
  2. T. Ohde, M. Bonitz, T. Bornath, M. Schlanges,
    Diffusion and heat transport in a dense partially ionized plasma
    Contrib. Plasma Phys. 37, 229 (1997) | link | local pdf-file
  3. M. Schlanges, T. Bornath, M. Bonitz, and W.D. Kraeft,
    Theory of dense plasmas - Articles dedicated to Dietrich Kremp on the occasion of his 60th birthday - Preface
    Contrib. Plasma Phys. 37, No. 2-3 (1997)
  4. Annual Report of the EU network "SILASI", P. Mulser (Ed.),
    M. Bonitz,
    "Short-time kinetics of strongly coupled many-particle systems"
  5. R. Binder, S. Köhler, N.H. Kwong, and M. Bonitz, Theory of momentum-orientation relaxation in semiconductors, SPIE Proceedings, Vol. 2994b, pp. 690-695
  6. M. Bonitz, D. Semkat and D. Kremp,
    Short-time Dynamics of Correlated Many-Particle Systems: Molecular Dynamics vs. Quantum Kinetics,
    Phys. Rev. E 56, 1246 (1997) | pdf-file
  7. M. Bonitz, R. Binder and H.S. Köhler,
    Quantum kinetic equations: Correlation dynamics and selfenergy
    Contrib. Plasma Phys. 37, 101 (1997) | link | local pdf-file
  8. R. Binder, H.S. Köhler, and M. Bonitz,
    Green's function description of momentum-orientation relaxationof photoexcited electron plasmas in semiconductors,
    Phys. Rev. B 55, 5110 (1997) | local pdf-file
  9. J.W. Dufty, Chang-Sub Kim, M. Bonitz and R. Binder,
    Density matrix methods for semiconductor Coulomb dynamics
    Int. Journal Quantum Chemistry 65, No. 5, 929-940 (1997) | link | local file
  10. S. Kosse, M. Bonitz, M. Schlanges, W. D. Kraeft,
    Evaluation of the quantum Landau collision integral
    Contrib. Plasma Phys. 37, 499 (1997) | link | local pdf-file
top of page

1996

  1. R. Binder, H. S. Köhler, M. Bonitz,
    Memory effects in the momentum orientation relaxation of optically excited plasmas in semiconductors
    Proceedings of the QELS, Anaheim (CA) 1996
  2. M. Bonitz, D. Kremp,
    Kinetic energy relaxation and correlation time of nonequilibrium many-particle systems
    Phys. Lett. A 212 (1996), 83 | link | local pdf-file
  3. M. Bonitz,
    Correlation time approximation in kinetic theory
    Phys. Lett. A 221 (1996), 85 | link | local pdf-file
  4. M. Bonitz, D. Kremp, S. Kosse, D. C. Scott, W. D. Kraeft,
    Influence of many-particle effects on stopping power
    In: Proceedings of the International Conference on the Physics of Strongly Coupled Plasmas, Sept. 11-15 1995, Binz, Eds. W. D. Kraeft, M. Schlanges, World Scientific 1996
  5. M. Bonitz, D. Kremp, D.C. Scott, R. Binder, W. D. Kraeft, H. S. Köhler,
    Memory effects in two-particle collsions
    In: Proceedings of the International Conference on the Physics of Strongly Coupled Plasmas, Sept. 11-15 1995, Binz, Eds. W. D. Kraeft, M. Schlanges, World Scientific 1996
  6. M. Bonitz, D. Kremp, D.C. Scott, R. Binder, W. D. Kraeft, H. S. Köhler,
    Numerical analysis of memory effects in the intraband relaxation in semiconductors
    Journal of Physics: Condensed Matter 8 (1996), 6057 | link | local pdf-file
  7. D. Kremp, T. Bornath, M. Bonitz, M. Schlanges,
    Quantum kinetic equations, memory effects,conservation laws
    Physica B 228 (1996), 72 | local pdf-file
  8. T. Ohde, M. Bonitz, T. Bornath, D. Kremp, M. Schlanges,
    Two-temperature relaxation in nonideal partially ionized plasmas
    Phys. Plasmas 3 (1996), 1249 | local pdf-file
  9. T. Ohde, M. Bonitz, T. Bornath, D. Kremp, M. Schlanges,
    Relaxation of temperature and chemical composition in nonideal plasmas
    In: Proceedings of the International Conference on Physics of Stongly Coupled Plasmas, Binz 1995, Eds. W. D. Kraeft, M. Schlanges, World Scientific, Singapore, 1996, 193
top of page

1995

  1. M. Bonitz,
    Reply to comment on: Impossibility of Plasma Instabilities in Isotropic Quantum Plasmas
    (Phys. Plasmas 1 (1994), 832),
    Phys. Plasmas 2 (1995), 1017 | local pdf-file
  2. M. Bonitz, D. Kremp, S. Kosse, D. C. Scott, W.D. Kraeft,
    Stopping power in strongly correlated plasmas
    In: Proceedings of the XXII. Intern. Conference on Phenomena in Ionized Gases, July 30 - August 4, 1995, Hoboken, NJ, USA
  3. M. Bonitz, D. Kremp, D.C. Scott, R. Binder,
    Memory effects in the relaxation of nonideal plasmas
    In: Proceedings of the XXII. Intern. Conference on Phenomena in Ionized Gases, July 30 - August 4, 1995, Hoboken, NJ, USA
  4. M. Bonitz, D. Kremp, D.C. Scott, R. Binder, W.D. Kraeft,
    Memory-Effekte in Ultrakurzzeit-Relaxationsprozessen in Plasmen
    In: Verhandlungen der Deutschen Physikalischen Gesellschaft 1995, 200
  5. T. Ohde, M. Bonitz, T. Bornath, D. Kremp, M. Schlanges,
    Relaxation of temperature and chemical composition in nonideal plasmas
    Phys. Plasmas 2 (1995), 3214 | local pdf-file
  6. T. Ohde, M. Bonitz, T. Bornath, D. Kremp, M. Schlanges,
    Gekoppelte Relaxation der Dichte und der Temperatur in nichtidealen Plasmen
    Verhandlungen der Deutschen Physikalischen Gesellschaft 1995, 241
  7. M. Schlanges, M. Bonitz, A. Tschttschjan,
    Plasma phase transition in fluid hydrogen-helium mixtures
    Contrib. Plasma Phys. 35 (1995), 109 | local pdf-file
  8. M. Bonitz, D. Kremp,
    Kinetic equations for strongly coupled plasmas
    Bull. of the Am. Phys. Society/Plasma Physics, 40 (1995), 1808
top of page

1994

  1. M. Bonitz,
    Impossibility of Plasma Instabilities in Isotropic Quantum Plasmas
    Phys. Plasmas 1 (1994), 832 | local pdf-file
  2. M. Bonitz, R. Binder, D.C. Scott, S.W. Koch, D. Kremp,
    Theory of Plasmons in Quasi-One-Dimensional Degenerate Plasmas
    Phys. Rev. E 49 (1994), 5535 | local pdf-file
  3. M. Bonitz, D.C. Scott, R. Binder, S.W. Koch,
    Nonlinear Carrier-Plasmon Interaction in a One-Dimensional Quantum Plasma
    Phys. Rev. B 50 (1994), 15095 | local pdf-file
  4. D.C. Scott, R. Binder,M. Bonitz, S.W. Koch,
    Multiple undamped acoustic plasmons in three-dimensional two-component nonequilibrium plasmas
    Phys. Rev. B 49 (1994), 2174 | local pdf-file
top of page

1993

  1. M. Bonitz, R. Binder, S.W. Koch,
    Carrier-Acoustic Plasmon Instability in Semiconductor Quantum Wires
    Phys. Rev. Lett. 70 (1993), 3788
    download pdf-file (652K),
  2. M. Bonitz, R. Binder, D.C. Scott, S. W. Koch, D. Kremp,
    Plasmons and Instabilities in Quantum Plasmas
    Contr. Plasma Phys. 33 (1993), 536 |
    link | local pdf-file
  3. M. Bonitz, R. Binder, D.C. Scott, S. W. Koch, D. Kremp, K. Morawetz,
    Plasmons and Instabilities in Degenerate Dynamically Screened Plasmas
    In: Proc. XXI. Intern. Conference on Phenomena in Ionized Gases, September 19-24, 1993, Ruhr-Universität Bochum, Eds. G. Ecker, U. Arendt, J. Böseler, 227
  4. D. Kremp, M. Schlanges, M. Bonitz, T. Bornath,
    Reaction and diffusion in dense nonideal plasmas
    Phys. of Fluids B 5 (1993), 216 |
    local pdf-file
  5. M. Schlanges, M. Bonitz, A. Tschttschjan,
    Plasma phase transition in hydrogen--helium plasmas
    In: Strongly Coupled Plasmas, Eds. H. Van Horn, S. Ichimaru, University of Rochester Press, Rochester 1993, 77
top of page

1990-92

  1. M. Bonitz,
    Diffusionskoeffizienten für ein Vielkomponentensystem
    Wiss. Z. Universität Rostock 39 (1990)
  2. M. Bonitz,
    Droplets in dense plasmas
    In: Fluctuations, Clusters, Fractals, Eds. H. Ulbricht, F. Schweitzer, Rostock 1991
  3. M. Bonitz, M. Schlanges, T. Bornath, and C. Kremp,
    Reaction and diffusion in nonideal plasmas
    In: Proceedings of the XX. ICPIG, Contributed Papers, Pisa 1991
  4. M. Schlanges, T. Bornath, M. Bonitz, D. Kremp,
    Transport properties and ionization kinetics in nonideal plasmas
    In: J. Popielawski, Editor, Far-From-Equilibrium Dynamics of Chemical Systems, page 192, Singapore, World-Scientific 1991
  5. M. Schlanges, T. Bornath, C. Kremp, M. Bonitz,
    Reaction and Diffusion in Nonideal Plasmas
    In: Proceedings of the XX. ICPIG, Contributed Papers, Pisa 1991
  6. M. Schlanges, M. Bonitz, T. Bornath, D. Kremp,
    Reaction and Diffusion in nonideal plasmas
    In: Proceedings of the International Conference on Phenomena in Ionized Gases (ICPIG XX), Contributed papers 4, Pisa 1991, 869-870
  7. M. Schlanges, D. Kremp, M. Bonitz, T. Bornath,
    Ionization and Recombination Processes in Dense Nonideal Plasmas
    In: Proceedings International Conference on Plasma Physics, Innsbruck 1992, 2091-2094
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1986-89

  1. Yu. L. Klimontovich, and M. Bonitz,
    Degree of Order of States in autooscillating (self-organizing) systems with two control parameters
    Russian Lett. of J. Tekh. Phys. 12 (1986), 1353
  2. Yu. L. Klimontovich, and M. Bonitz,
    Self-Organization in systems without simple attractors
    Russian Lett. of J. Tekh. Phys. 12 (1986), 1349
  3. Yu. L. Klimontovich, and M. Bonitz,
    Evolution of the Entropy of Stationary States in Selforganization Processes in the Control Parameter Space
    Z. Phys. B70 (1988), 241
    link | pdf-file
  4. Yu. L. Klimontovich, and M. Bonitz,
    Definition of the Degree of Order in Selforganization Processes
    Ann. Physik (Leipzig) 45 (1988), 340
    link | pdf-file
  5. M. Bonitz, T. Bornath, A. Förster, D. Kremp, and M. Schlanges,
    Ionization fronts and ionization kinetics in nonideal dense plasmas
    In: W. Ebeling, H. Ulbricht, Editors, Irreversible Processes and Selforganization, 23, Teubner-Texte zur Physik, page 179, Leipzig, 1989
  6. M. Bonitz, C. Kremp, and D. Kremp,
    Reaction-diffusion processes in non-ideal plasmas
    Wiss. Z. Universität Rostock, N-Reihe 38(1989), 37-42
  7. D. Kremp, M. Schlanges, T. Bornath, and M. Bonitz,
    Nonideality and nonlinearity in reaction-diffusion plasmas
    Contrib. Plasma Phys. 29 (1989), 511 link | pdf-file
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