B
Boris Laikhtman
Researcher at The Racah Institute of Physics
Publications - 73
Citations - 1074
Boris Laikhtman is an academic researcher from The Racah Institute of Physics. The author has contributed to research in topics: Quantum well & Exciton. The author has an hindex of 17, co-authored 72 publications receiving 991 citations. Previous affiliations of Boris Laikhtman include Hebrew University of Jerusalem & Stony Brook University.
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Exciton correlations in coupled quantum wells and their luminescence blue shift
Boris Laikhtman,Ronen Rapaport +1 more
TL;DR: In this article, the authors present a study of an exciton system where electrons and holes are confined in double quantum well structures, and they show that the tail of this interaction leads to a strong correlation between excitons and substantially affects the behavior of the system.
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Theoretical hole mobility in a narrow Si/SiGe quantum well
Boris Laikhtman,R. A. Kiehl +1 more
TL;DR: Calculations of the hole mobility in a strained SiGe quantum well on (001) Si are carried out for the case of a narrow well in which the subband splittings are large due to quantum-size effects and results indicate that hole mobilities could be possible in narrow SiGe wells as a result of the favorable modifications in band structure and scattering.
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Exciton-exciton interactions in quantum wells: Optical properties and energy and spin relaxation
TL;DR: In this paper, a gas of interacting excitons in quantum wells is studied and the Hamiltonian of this gas is obtained by the projection of the electron-hole plasma Hamiltonian to exciton states and an expansion in a small density.
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Particle correlations and evidence for dark state condensation in a cold dipolar exciton fluid.
TL;DR: Experimental evidence of a few correlation regimes of a cold dipolar exciton fluid, created optically in a semiconductor bilayer heterostructure, showing evidence for correlations beyond the mean field model is shown.
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Excitonic Instability and Electric-Field-Induced Phase Transition Towards a Two-Dimensional Exciton Condensate.
Y. Naveh,Boris Laikhtman +1 more
TL;DR: In this paper, an InAs-GaSb-based system is presented in which the electric field tunability of its 2D energy gap implies a transition towards a thermodynamically stable excitonic condensed phase.