Zimmermann, Roland - Institut f�r Physik, Humboldt-Universit�t zu Berlin

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Zimmermann, Roland - Institut f�r Physik, Humboldt-Universit�t zu Berlin

Journal of Luminescence 53 (1992) 187--190 LUMINESCENCE Carrier kinetics for ultrafast optical pulses
Electron-phonon interaction in embedded semiconductor nanostructures Frank Grosse* and Roland Zimmermann
Pulse-propagation-induced higher orders of diffraction in transient four-wave mixing with semiconductors
phys. stat. sol. (b) 243, No. 10, 23752378 (2006) / DOI 10.1002/pssb.200668064 2006 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim
physF sttF solF @A PHTD VU @IWWVA ujet lssifitionX UIFQSFgY UVFWHFCt
OPTICAL SPECTRA OF QUANTUM STRUCTURES: INFLUENCE OF INTERFACE AND ALLOY DISORDER
Coherent control for a two-level system coupled to phonons H. Castella
Near-field autocorrelation spectroscopy of disordered semiconductor quantum wells Christoph Lienau, Francesca Intonti,* Tobias Guenther, and Thomas Elsaesser
pss header will be provided by the publisher Exciton Aharonov-Bohm effect and emission kinetics in nanor-
Level Repulsion of Localized Excitons in Disordered Quantum Wells
phys. stat. sol. (b) 221, 281 (2000) Subject classification: 71.35.y; 78.55.Cr; S7.12
VOLUME 82, NUMBER 5 P H Y S I C A L R E V I E W L E T T E R S 1 FEBRUARY 1999 Time-Resolved Speckle Analysis: A New Approach to Coherence and Dephasing
Phonon-induced Exciton Dephasing in Quantum Dot Molecules E. A. Muljarov1,2,3
APS/123-QED Near-field spectra of quantum well excitons
phys. stat. sol. (b) 221, 269 (2000) Subject classification: 71.35.Cc; 73.20.Fz; 78.20.Bh; S7.12
Nonclassical gain in the optical Stark effect: Density matrix approach
4th Intern. Meeting on Excitons in Confined Systems, Cortona 28.31. 8. 1995 (Il Nuovo Cimento 17D, 18011805, 1995)
Femtosecond Optical Response of ExcitonLO Phonon Quasiparticles in GaAs
346 Journal of Crystal Growth 101 (1990) 346--349 North-Holland
BOSE-EINSTEIN CONDENSATION OF EXCITONS: PROMISE AND DISAPPOINTMENT
Exciton-Exciton Interaction in Semiconductor Quantum Wells
Spectral moments in the homogeneous electron gas R. Zimmermann,2
Optical properties of trions in semiconductor nanostructures
Role of the excitonic continuum in the polariton E. A. Muljarov 1 and R. Zimmermann 2
This article is published in Phys. Rev. Lett. 93, 237401 (2004). Dephasing in Quantum Dots: Quadratic Coupling to Acoustic Phonons
Hole-hole and electron-hole exchange interactions in single InAs/GaAs quantum dots T. Warming,1 E. Siebert,1 A. Schliwa,1 E. Stock,1 R. Zimmermann,2 and D. Bimberg1
fl Johann Ambrosius Barth 1998 Exciton dispersion in quantum wells
Diamagnetic Shift and Localization of Excitons in Disordered Quantum Wells
Probing localized excitons by speckle analysis of resonant light scattering
Magneto-optical studies of excitons in Zn1 xCdxSe/ZnSe quantum wells J. Puls, V. V. Rossin,* and F. Henneberger
Localized excitons in quantum wells show spin relaxation without coherence loss
Quantum Coherence, Correlation and Decoherence in Semiconductor Nanostructures
Solid State Communications, Vol. 38, pp. 271-274. Pergamon Press Ltd. 1981. Printed in Great Britain.
Electron-phonon interaction in quantum dots: A solvable model T. Stauber* and R. Zimmermann
--LUMINESCENCE ELSEVIER Journal of Luminescence 58 (1994) 271 274
Photoluminescence and radiative lifetime of trions in GaAs quantum wells Axel Esser, Erich Runge, and Roland Zimmermann
Enhanced resonant backscattering of light from quantum-well excitons Vincenzo Savona, Erich Runge, and Roland Zimmermann
SELF-ORGANIZED GROWTH ON V-GROOVED SUBSTRATES F. GROSSE, A. KLEY, M. SCHEFFLER
Theory of Trion Spectra in Semiconductor Nanostructures A. Esser, R. Zimmermann, and E. Runge
Phonons in quantum dots and their role in exciton dephasing
28. ICPS Wien ( Osterreich), Juli 2006: Towards Bose-Einstein condensation
Densitymatrix theory of trionic spectra in semiconductor nanostructures
nanostructures: Theoretical
Physica E 2 (1998) 4953 Femtosecond dynamics of secondary radiation formation
LUMINESCENCE ELSEYIER Journal of Luminescence 76&77 (1998) 34-37
Random-matrix model of resonant Rayleigh scattering in systems with exciton fine-structure splitting
12th Int. Symp. "Nanostructures: Physics and Technology" St Petersburg, Russia, June 2125, 2004
phys. stat. sol. (b) 221, 365 (2000) Subject classification: 71.23.An; 71.35.Cc; 78.35.c; 78.47.+p; S7.12
Exciton wave function properties probed by diamagnetic shift in disordered quantum M. Grochol,
Electron-Acoustic Phonon Interaction in Semiconductor Nanostructures
J. Phys. B: At. Mol. Phys. 20 (1987) 4069-4086. Printed in the UK Effective electron-atom interactions and virial coefficients in
VOLUME 78, NUMBER 11 P H Y S I C A L R E V I E W L E T T E R S 17 MARCH 1997 Resonant Femtosecond Emission from Quantum Well Excitons: The Role
Partial dephasing in interacting many-particle systems and current echo Siegfried Sauter-Fischer, Erich Runge, and Roland Zimmermann
Specklecorrelation spectroscopy on localized spinsplit exciton states in quantum wells
~-JOURNAL OF LUMINESCENCE
Exciton Aharonov-Bohm Effect in Embedded Nanostructures
Excitonic Spectra in Semiconductor Nanostructures Roland Zimmermann
Solid State Communications 144 (2007) 395398 www.elsevier.com/locate/ssc
Analysis of the exciton-exciton interaction in semiconductor quantum wells Christoph Schindler* and Roland Zimmermann
School of Physics Colloquium, October 12, 2005 (Cardiff): Bose-Einstein condensation of excitons
Coherent potential approximation for spatially correlated disorder Roland Zimmermann1,* and Christoph Schindler1,2
2008 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim phys. stat. sol. (b) 245, No. 6, 11061109 (2008) / DOI 10.1002/pssb.200777613
pss header will be provided by the publisher Exciton diamagnetic shift in realistic quantum wells
phys. stat. sol. (b), 243, No. 15, 38903894 (2006) / DOI 10.1002/pssb.200671516 2006 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim
Optical exciton Aharonov-Bohm effect, persistent current, and magnetization in semiconductor nanorings of type I and II
phys. stat. sol. (c) 3, No. 7, 25182521 (2006) / DOI10.1002/pssc.200668082 2006 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim
Optical absorption in quantum dots: Coupling to longitudinal optical phonons treated exactly T. Stauber1 and R. Zimmermann2
Uskov et al. Reply: In our Letter [1] we analyzed the effect of a second-order elastic electron-phonon interaction on
Theory of Rayleigh scattering using finite-dimension random-matrix theory Roland Zimmermann
Moving speckles in the Rayleigh scattering of excitons in potential gradients G. Mannarini,* F. Grosse, and R. Zimmermann
Sloped and bow-tie speckles from a warped energetic landscape
Level repulsion of exciton states in disordered semiconductor nanostructures
Density-matrix description of frequency-resolved secondary emission from quantum wells
Resonant Rayleigh scattering dynamics of excitons in single quantum wells G. Kocherscheidt, W. Langbein, and U. Woggon
Spectral speckle analysis of resonant secondary emission from solids G. Kocherscheidt and W. Langbein*
Enhanced Resonant Backscattering of Excitons in Disordered Quantum Wells W. Langbein*
phys. stat. sol. (b) 221, 349 (2000) Subject classification: 71.35.Cc; 78.47.p; 78.55.Cr; S7.12
Center-of-mass properties of the exciton in quantum wells A. Siarkos, E. Runge, and R. Zimmermann
Instantaneous Rayleigh scattering from excitons localized in monolayer islands W. Langbein
Competition between radiative decay and energy relaxation of carriers in disordered InxGa1xAsGaAs quantum wells
Statistical properties of speckle distributions in resonant secondary emission Erich Runge and Roland Zimmermann
phys. stat. sol. (a) 178, 489 (2000) Subject classification: 71.35.y; 78.55.Cr; S7.12
Journal of Crystal Growth 212 (2000) 128}137 Monte Carlo growth simulation for Al
Time-resolved Rayleigh scattering of excitons: Evidence for level repulsion in a disordered system
physF sttF solF @A PHTD ITU @IWWVA ujet lssifitionX UVFTTFwY UIFQSFyY UVFSSFm
Exciton-phonon resonance in the continuum absorption of bulk semiconductors R. Zimmermann
Effective exciton mobility edge in narrow quantum wells U. Jahn, M. Ramsteiner, R. Hey, and H. T. Grahn
Pure &App/. Chem.,Vol. 69, No. 6, pp. 1179-1186, 1997 Printed in Great Britain.
Photon statistics and the optical Stark effect T. Altevogt, H. Puff, and R. Zimmermann
VOLUME 78, NUMBER 19 P H Y S I C A L R E V I E W L E T T E R S 12 MAY 1997 Quantum Kinetic Electron-Phonon Interaction in GaAs: Energy Nonconserving Scattering
LUMINESCENCE ELSEVIER Journal of Luminescence 60&1 19941 320 323
129R. ZIMMERMANN: Theory of Dephasing in Semiconductor Optics phys. stat. sol. (b) 173, 129 (1992)
Journal of Crystal Growth 101 (1990) 341-345 North-Holland
Superlattices and Microstructures, Vol. 7, No. 4, 1990 433 A slIHVEY OF RAND-GAP RENORMALIZATION IN QUANTUMWELL STRUCTURES
Journal of Luminescence 44 (1989) 233--246 233 North-Holland, Amsterdam
Physica 138A (1986) 557-572 North-Holland, Amsterdam
Journal of Luminescence 12/13 (1976) 557--562 North-Holiand Publishing Company
NON-MARKOVIAN DYNAMICS IN ELECTRON-PHONON RELAXATION
fl Johann Ambrosius Barth 1998 Level repulsion in excitonic spectra of disordered
Exciton Dephasing in Quantum Dots due to LO-Phonon Coupling: An Exactly Solvable Model E. A. Muljarov1,2,* and R. Zimmermann1
Appeared in Solid State Comm. 134, 43-46 (2005) Probing exciton condensation
Noncircular semiconductor nanorings of types I and II: Emission kinetics in the excitonic Aharonov-Bohm effect
Atomic scale structure and optical emission of AlxGa1-xAs/GaAs quantum wells C. Ropers,* M. Wenderoth, L. Winking, T. C. G. Reusch, M. Erdmann, and R. G. Ulbrich
phys. stat. sol. (b) 243, No. 10, 23582362 (2006) / DOI 10.1002/pssb.200668040 2006 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim
J. Phys. B: At. Mol. Opt. Phys. 30 (1997) 33053316. Printed in the UK PII: S0953-4075(97)81810-X Optical Stark effect and photon statistics in the density
VOLUME 87, NUMBER 7 P H Y S I C A L R E V I E W L E T T E R S 13 AUGUST 2001 Quantum Mechanical Repulsion of Exciton Levels in a Disordered Quantum Well
Exact calculation of distributions for excitonic oscillator strength and inverse participation ratio in disordered quantum wires
Towards Bose-Einstein condensation of excitons: Combined treatment of disorder and exciton-exciton interaction
phys. stat. sol. (b) 243, No. 10, 22522256 (2006) / DOI 10.1002/pssb.200668036 2006 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim