Interdisciplinary Workshop

Progress in Nonequilibrium Greens Functions

19.-22. August 2002, Dresden

General format

- Workshop will be of Gordon-type format

- Sessions of 3 (2) talks in the morning (evening)

- Sessions are chaired and introduced for non-experts (10-15

minutes introduction) by a moderator - specialist in the field

- talks are 45 min duration, followed by 15 min discussion

- 2 poster sessions (posters remain on display next day)

- Number of workshop participants will be limited to 60

Preliminary Workshop Program

Sunday August 18

Afternoon: Registration, Welcome reception

Monday August 19

9.00 am - 12.45 pm:

Opening

Session I: History and fundamental theoretical problems

Moderator: Alexei Abrikosov, Argonne National Laboratory

I.1. Leonid Keldysh, Lebedev-Institute Moscow:

Real-time Greens Functions

I.2. Gordon Baym, University of Illinois:

Title to be confirmed

I.3. Hendrik van Hees and Jörn Knoll, University Bielefeld/GSI Darmstadt:

Renormalization and selfconsistency in quantum field theory

12.45 pm - 3.30 pm: Lunch break/Ad hoc sessions

3.30 pm - 5.00 pm: Afternoon coffee and Posters A

5.00 pm - 7.00 pm:

Session II: Progress in Superconductivity and Bose condensation

Moderator: Paul C. Martin, Harvard University

II.1. Alexei Abrikosov, Argonne National Laboratory:

Theory of high-temperature superconductivity in layered cuprates

II.2. Hartmut Haug, Frankfurt University:

Quantum kinetics of Bose-Einstein condensation

Tuesday August 20

9.00 am - 12.45 pm:

Session III: Many-body effects at high energies

Moderator: Jörn Knoll, GSI Darmstadt

III.1. Hector De Vega, University Paris VI:

Out of equilibrium quantum field theory in early cosmology

III.2. Pawel Danielewicz, Michigan:

Parton Dynamics in Phase Space

III.3. David Blaschke, Rostock University:

Quark-Gluon Plasma

12.45 pm - 3.30 pm: Lunch break/Ad hoc sessions

3.30 pm - 5.00 pm: Afternoon coffee and Posters B

5.00 pm - 7.00 pm:

Session IV:

Moderator: Thomas Bornath, Rostock University

IV.1. Manfred Schlanges, Greifswald University:

Correlated quantum plasmas in strong laser fields

IV.2. Antti-Pekka Jauho, Technical University of Denmark:

NGF in modelling transport and chemical reactions in organics

8.00 pm Workshop Dinner

Wednesday August 21

9.00 am - 12.45 pm:

Session V: Optics of correlated electron-hole systems

Moderator: Roland Zimmermann, Humboldt-University Berlin

III.1. Klaus Henneberger, Rostock University:

Excitons in Semiconductors: Phase Space Shrinkage and Dissociation vs. high Population

III.2. Rolf Binder, University of Arizona:

Excitonic correlations in the coherent emission of semiconductor microcavities

III.3. Wilfried Schäfer, Forschungszentrum Jülich:

Title to be confirmed

2.00 pm Workshop excursion

Thursday August 22

9.00 am - 12.45 pm

Session VI: Quantum Transport in Semiconductors

Moderator: Norman Horing, Stevens Institute of Technology

VI. 1. David Ferry, Arizona State University:

Nonequilibrium Transport in Nanoscale Semiconductor Devices

VI.2. Roger Lake and Dejan Jovanovic, University of California, Riverside/ Motorola Labs

NGF in semiconductor device modelling

VI.3. John Barker, University of Glasgow:

Bohm trajectories in quantum transport

12.45 pm - 2.00 pm: Lunch break

2.00 pm - 4.30 pm:

Session VII: Alternative Computational Methods

Moderator: To be confirmed

IV.1. Paul-Gerhard Reinhard, University Erlangen:

Time-dependent Density Functional Theory

IV.2. Michael Bonitz, Rostock University,

NGF and first-principle simulations

Closing

Friday August 23

Departure or optional program, including

excursion to the surrounding of Dresden

excursion to AMD Saxony, Infineon etc.

Explanations:

NGF = Nonequilibrium Greens Functions

Posters

P1: Egidijus Anisimovas, and Francois M. Peeters, Dep. Natuurkunde, Univ. Antwerpen:

Few-particle States in Electron-Hole Coupled Quantum Dots

P2: Michael Bonitz, Dirk Semkat, Michael Murillo, and Dirk O. Gericke, Rostock University/Los Alamos Nat. Laboratory:

Rapid cooling of trapped ions by changing the spin statistics

P3: Antonina Fedorova, Michael Zeitlin, Institute of Problems of Mechanical Engineering

Russian Academy of Sciences:

Multiresolution in Quantum Dynamics: From Localization to Pattern Formation

P4: Antonina Fedorova, Michael Zeitlin, Institute of Problems of Mechanical Engineering

Russian Academy of Sciences:

Wavelet-Based Calculation Methods in Nonlinear Collective Dynamics

P5: Alexei Filinov, Volodymyr Golubnichyi, Michael Bonitz and Yuri E. Lozovik, Rostock University and Inst. Optics and Spectroscopy Troitsk, Russia:

Wigner crystallization in mesoscopic semiconductor heterostructures

P6: Alexei Filinov, Michael Bonitz and Werner Ebeling, Rostock University/Humboldt University Berlin:

Improved quantum pair potentials for dense Coulomb systems

P7:Vladimir Filinov, Peter Thomas, Michael Bonitz, and Stephan Koch, High Energy Density Laboratory Moscow/ Marburg University/Rostock University:

Quantum Dynamics study of Anderson localization of interacting electrons

P8:Vladimir Filinov, Walter Hoyer, Michael Bonitz, and Stephan Koch,

High Energy Density Laboratory Moscow/ Marburg University/Rostock University:

Path integral Monte Carlo results for phase separation in electron-hole plasmas and hydrogen

P9: Paul Gartner, Frank Jahnke and Wilfried Schäfer, Inst. Theor. Phys., University of Bremen/ Forschungszentrum Jülich:

Exciton-Phonon interaction in semiconductors with intermediate polar coupling

P10: Norman J.M. Horing, Dept. Phys. And Engineering Physics, Stevens Inst. Technology:

A Sampling of Green’s Functions for Electrons Subject to Finite Fields, Superlattice and Confining Potentials, Bounded Media and Nonlocality

P11: Alexander A. Isayev, Kharkov Institute of Physics and Technology:

Crossover from np superfluidity to Bose-Einstein-condenssation of deuterons in nuclear matter

P12: Andela Kalvova, Bedrich Velicky, and Vaclav Spicka, Inst. Physics, Ac. Sciences Czech Republic:

Photoexcited transients in disordered semiconductors

P13: Thomas Klähn, Günter Manzke, and Klaus Henneberger Rostock University:

Electron--phonon quantum kinetic effects in the linear optical properties of semiconductors

P14: Irena Knezevic and David K. Ferry, Arizona State University:

Nonequilibrium Transport in Open Quantum Systems

P15: Angelika Kuligk, Niels Fitzer, and Ronald Redmer, Rostock University:

Full-band approach to impact ionization and high-field transport in semiconductors

P16: Yuri E. Lozovik, Alexei V. Filinov, and A. Arkhipov, Inst. Spectroscopy Troitsk/Rostock University: Quantum dynamics study of tunnelling of correlated electrons

P17: A.A. Panteleev and Vl.K. Roerich, TRINITI Troitsk:

Many-body approaches to time-dependent resonance fluorescence

P18: A.V. Prozorkevich, S.A. Smolyansky, C.V. Ilyin, and V.A. Kravchenko, Phys. Dept. Saratov State University:

Vlasov Type Kinetic Equation for Quarks in Strong Gluon Field

P19: Vladimir Roerich, and Maxim Gladush, TRINITI Troitsk:

Implication of coherent state and Hartree-Fock approximation to studying resonance Rayleigh scattering

P20: S.M. Schmidt, D.V. Vinnik, V.V.Skokov, S.A. Smolyansky, and D.V. Toneev, Inst. Theor. Physik Univ. Tübingen/Bogoljubov Lab. Theor. Phys. Dubna/Phys. Dept. Saratov State University:

The Beliaev-Budker CI in Parton Plasma Pre-equilibrium evolution

P21: S.M. Schmidt, D.V. Vinnik, A.V. Reichel, S.A. Smolyansky, and A.V. Tarakanov, Inst. Theor. Physik Univ. Tübingen/ Phys. Dept. Saratov State University:

The Kinetics of the Pair Creation in Strong Electromagnetic Fields

P22: Dirk Semkat, Michael Bonitz, Dietrich Kremp, Michael Murillo, and Dirk Gericke, Rostock University/Los Alamos National Laboratory:

Correlation induced heating and cooling of trapped ions

P23: Alexander Shul'man, Institute of Radioengineering and Electronics of the Russian Ac. Sciences:

Contribution of One-Time Pair Correlation Function to Kinetic Phenomena in Nonequilibrium Gas

P24: Anatoly Yu. Smirnov, Lev G. Mourokh, and Norman J.M. Horing D-Wave Systems Inc./ Dept Phys. and Engineering Physics, Stevens Inst. Technology:

Nonequilibrium Green’s function analysis of transport and magnetic moment in a biased double-wire system

P25: Robert van Leeuwen, Rijksuniversiteit Groningen:

Nonequilibrium Green functions in Time-Dependent Density Functional Theory

P26: Bedrich Velicky, Andela Kalvova, and Vaclav Spicka, Inst. Physics, Ac. Sciences Czech Republic:

Transient excitation of d-electrons in dilute magnetic semiconductors

P27: Jan Vorberger, Manfred Schlanges, Wolf Dietrich Kraeft, Universität Greifswald:

Thermodynamic Functions of Dense Quantum Plasmas

P28: Peiji Zhao, N. J. M. Horing, D. L. Woolard, and H. L. Cui, Dept El. And Computer Engineering, NCSU/ Dept Phys. and Engineering Physics, Stevens Inst. Technology/ Army Research Office:

Nonequilibrium Green's Function Formulation of Quantum Transport

Theory for Multi-band Semiconductors

P29: Peiji Zhao, D. L. Woolard, H. L. Cui, and N. J. M. Horing, Dept El. And Computer Engineering, NCSU/ Army Research Office / Dept Phys. and Engineering Physics, Stevens Inst. Technology:

A Multi-Subband Theory of the Origin of Intrinsic Oscillations in Double-Barrier Quantum Well Systems

P30: Alexei Filinov and Michael Bonitz, Rostock University:

First Principle results for bound states in semiconductor heterostructures - excitons, trions, biexcitons

Proceedings

A workshop book similar to the previous volume will be published with World Scientific Publ. The book will include refereed papers based on talks, posters and session introductions (possibly expanded).

Manuscript Length:

Talks: 15 pages, Session introductions and posters: 8 pages

Manuscript style: papers are accepted in MS Word and LaTex (preferred). Style file package and formatting guidelines are accessible from the conference web page.

Deadlines

- Manuscript deadline: August 19 (referral during workshop)

- Final version deadline: October 1