Interdisciplinary Workshop
Progress in Nonequilibrium
Green’s Functions
19.-22. August 2002, Dresden
Conference venue, including talks,
posters, registration and welcome dinner: art’otel Dresden
General format
- Workshop
will be of Gordon-type format
- 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 during next day’s
Morning session)
- Number of
workshop participants will be limited to 60
Workshop Program
(as of August 1. Changes/corrections still
possible)
Sunday August 18
4 p.m. - 7 p.m. Registration
7 p.m. Welcome reception
Monday August 19
8.30 am - 12.15 pm
Opening
Session I: History and
fundamental theoretical problems
Moderator: Alexei Abrikosov, Argonne National
Laboratory
I.1. Leonid Keldysh,
Lebedev Physics Institute Moscow:
Real-time Nonequilibrium
Green’s Functions
I.2. Hendrik van Hees
and Jörn Knoll,
University Bielefeld/GSI Darmstadt:
Renormalization and selfconsistency in quantum field theory
I.3. Klaus Morawetz,
Pavel Lipavsky, and Vaclav Spicka,
Max-Planck-Institute for the
Physics of Complex Systems/
Inst.
Physics, Academy of Sciences of the
Czech Republic
130 years of Boltzmann’s equation - from classical to nonlocal quantum
transport
12.30 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
8.30 am - 12.15 pm:
Session III: Quantum
Transport in Semiconductors
Moderator: Norman Horing, Stevens Institute of
Technology
III.1. David Ferry, S.M.
Ramey, and L. Shifren,
Arizona State University:
Nonequilibrium Transport in Nanoscale Semiconductor Devices
III.2. Roger Lake and Dejan Jovanovic,
University of California, Riverside/Motorola Labs
NGF in semiconductor
device modelling
III.3. Antti-Pekka Jauho,
Technical University of Denmark:
NGF modelling of
transport in mesoscopic systems
12.30 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: Quantum Transport II
Moderator: Thomas Bornath, Rostock University
IV.1. John Barker, University of Glasgow:
Bohm trajectories in
quantum transport
IV.2. Manfred
Schlanges, Greifswald University:
Correlated quantum plasmas in strong laser fields
8.00 pm Workshop Dinner
Wednesday August 21
8.30 am - 12.15 pm:
Session V: Optics of
correlated electron-hole systems
Moderator:
Roland Zimmermann, Humboldt-University Berlin
V.1. Klaus Henneberger, Rostock University:
Excitons in Semiconductors: Phase Space Shrinkage
and
Dissociation vs. high Population
V.2. Rolf Binder,
University of Arizona:
Excitonic correlations in
the coherent emission of semiconductor microcavities
V.3.
Wilfried Schäfer, Paul Gartner, and Frank Jahnke
ISG, Forschungszentrum Jülich/Universität Bremen:
Coulomb
correlations in the quantum kinetics of electron-phonon systems
2.00 pm Workshop excursion
Thursday August 22
8.30 am - 12.15 pm
Session VI: Many-body
effects at high energies
Moderator:
Jörn Knoll, GSI Darmstadt
VI.1. Hector J. De Vega, LPTHE,
University Paris VI:
Out of equilibrium
quantum field theory in early cosmology
VI.2. Pawel Danielewicz,
Michigan State University:
Parton Dynamics in
Phase Space
VI.3. David Blaschke
and Craig Roberts,
Rostock University/Argonne National Laboratory:
Aspects of a Quark Gluon
Plasma
12.45 pm - 2.00 pm: Lunch break
2.00 pm - 4.30
pm:
Session VII: Alternative Computational
Concepts
Moderator: Carlo Jacoboni, University Modena
VII.1.
K. Andrae, F. Giglio, M. Ma, A. Pohl,
P.-G. Reinhard and
E. Suraud,
University Erlangen/Nürnberg /
Lab. Physique Quantique, Univ. Paul Sabatier,
Toulouse/CIRIL/GANIL:
Time-dependent
Density-Functional-Theory
From a Practitioners
Perspective
VII.2. Michael Bonitz,
Dirk Semkat,
Alexei Filinov, Volodymyr
Golubnychiy, and
Vladimir Filinov,
Rostock University/High Energy
Density Center,
Moscow,
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 Green’s Functions
Posters
Group
A (Monday Afternoon)
A1:
Jürgen Berges and Markus Müller,
Universität Heidelberg:
Far-from-Equilibrium Quantum Fields and
Thermalization
A2: Alexander A. Isayev, Kharkov Institute of Physics
and Technology, Ukraine:
Crossover
from np superfluidity to Bose-Einstein-condenssation of deuterons in nuclear
matter
A3: A.V.
Prozorkevich, S.A. Smolyansky, C.V. Ilyin, and V.A. Kravchenko,
Physics Department, Saratov
State University:
Vlasov Type Kinetic Equation
for Quarks in Strong Gluon Field
A4: 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 kinetic equation in parton plasma pre-equilibrium evolution
A5: 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
A6: Irena
Knezevic and David K. Ferry, Arizona State
University:
Nonequilibrium Transport in
Open Quantum Systems
A7: Antonina Fedorova,
Michael Zeitlin,
Institute of Problems of
Mechanical Engineering Russian Academy of Sciences,
St. Petersburg:
Multiresolution in Quantum
Dynamics: From Localization to Pattern Formation
A8: Antonina Fedorova, Michael Zeitlin,
Institute of Problems of Mechanical Engineering Russian Academy of
Sciences, St. Petersburg:
Wavelet-Based Calculation Methods in Nonlinear
Collective Dynamics
A9: Jan Vorberger, Manfred Schlanges
and Wolf Dietrich Kraeft, Universität Greifswald:
Thermodynamic Functions of Dense Quantum Plasmas
A10: Alexei
Filinov,
Michael Bonitz and Werner Ebeling,
Rostock University/Humboldt University Berlin:
Quantum pair potentials for
strongly correlated plasmas
A11:Vladimir
Filinov,
Walter Hoyer, Michael Bonitz, and Stephan Koch,
High Energy Density Laboratory Moscow/ Marburg
University/Rostock University:
Plasma phase transition in
dense Coulomb systems
A12: A.A. Panteleev
and Vl.K. Roerich, TRINITI
Troitsk, Russia:
Many-body approaches to
time-dependent resonance fluorescence
A13: Vladimir Roerich, and Maxim Gladush, TRINITI Troitsk, Russia:
Implication of coherent state and Hartree-Fock
approximation to studying resonance Rayleigh scattering
A14: 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
A15: Dirk
Semkat, Michael Bonitz, Dietrich Kremp, Michael
Murillo, and Dirk Gericke, Rostock University/Los
Alamos National Laboratory:
Correlation induced heating and cooling of many-body
systems
A16: Michael Bonitz,
Dirk Semkat, Michael Murillo, and Dirk O. Gericke,
Rostock University/Los
Alamos Nat. Laboratory:
Rapid ion cooling via
switching spin statistics
A17: Yuri E. Lozovik, Alexei
V. Filinov, and A. Arkhipov,
Institute of Spectroscopy
Troitsk/Rostock University:
Tunnelling of identical
interacting fermions: a quantum molecular dynamics study
Group
B (Tuesday Afternoon)
B1: Robert van Leeuwen,
Rijksuniversiteit Groningen:
Nonequilibrium Green functions in Time-Dependent
Density Functional Theory
B2: Egidijus
Anisimovas, and Francois M. Peeters, Dep. Natuurkunde,
University Antwerpen:
Few-particle States in
Electron-Hole Coupled Quantum Dots
B3: Alexei
Filinov,
Volodymyr Golubnichyi, Michael Bonitz and Yuri E. Lozovik,
Rostock University/Institute of Optics and
Spectroscopy Troitsk, Russia:
Wigner crystallization of electrons in quantum dots
and bilayers
B4: Alexei Filinov, Michael Bonitz, and Yuri E. Lozovik,
Rostock University/Institute
of Optics and Spectroscopy Troitsk, Russia:
First Principle results for bound states in
semiconductor heterostructures - excitons, trions, biexcitons
B5: Thomas Klähn,
Günter Manzke, and Klaus Henneberger, Rostock University:
Electron-phonon quantum
kinetic effects in the linear optical properties of semiconductors
B6: Paul Gartner, Frank
Jahnke and Wilfried Schäfer, Institute of Theoretical
Physics, University of Bremen/ Institut
für Schichten und Grenzflächen, Forschungszentrum Jülich:
Exciton-Phonon interaction in semiconductors with
intermediate polar coupling
B7: Andela Kalvova, Bedrich Velicky, and
Vaclav Spicka, Institute of Physics, Academy of Sciences ot the Czech Republic:
Photoexcited transients in
disordered semiconductors
B8: Bedrich Velicky, Andela Kalvova, and Vaclav Spicka, Institute of Physics, Academy of
Sciences of the Czech Republic:
Transient
excitation of d-electrons in dilute magnetic semiconductors
B9: Angelika Kuligk, Niels
Fitzer, and Ronald Redmer, Rostock University:
Full-band approach to impact ionization and high-field
transport in semiconductors
B10: Peter Kleinert
and V.V. Bryksin,
Paul-Drude-Institut
Berlin/Physical-Technical Institute St. Petersburg:
High-electric-field quantum transport beyond the
Kadanoff-Baym ansatz
B11: Norman J.M. Horing, Department of Physics And Engineering
Physics, Stevens Institute of
Technology:
A Sampling of Green’s
Functions for Electrons Subject to Finite Fields, Superlattice and Confining
Potentials, Bounded Media and Nonlocality
B12: 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
B13: Peiji
Zhao, Norman J. M. Horing, D. L. Woolard, and H. L. Cui, Department of
Electrical 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
B14: Peiji
Zhao, D. L. Woolard, H. L. Cui, and Norman
J. M. Horing, Department of Electrical 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
B15:Vladimir Filinov, Peter Thomas, Michael Bonitz, and Stephan Koch,
High Energy Density Laboratory Moscow/ Marburg
University/Rostock University:
Coulomb interaction effects
on Anderson localization of electrons
B16: Carlo Jacoboni, Paolo
Bordone, and Rossella Brunetti,
INFM - National Research Center on
nanoStructures and bioSystem at Surfaces (S3),
Dipartimento di Fisica, Universita di Modena e
Reggio Emilia:
Wigner-path approach to nonequilibrium quantum
transport
B17: Tim Schmielau,
and Klaus Henneberger, Rostock University:
Excitons in semiconductors –
a T-matrix approach
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: 16 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