Bose-einstein condensation of two-dimensional polaritons in microcavity under the influence of the landau quantization and rashba spin-orbit coupling
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MOSKALENKO, Vsevolod; DUMANOV, Evgheni; PODLESNY, Igor; LIBERMAN, Michael; NOVIKOV, Boris; RUSU, Spiridon; BAJIREANU, Valentina. Bose-einstein condensation of two-dimensional polaritons in microcavity under the influence of the landau quantization and rashba spin-orbit coupling. In: Moldavian Journal of the Physical Sciences. 2014, nr. 1-2(13), pp. 61-97. ISSN 1810-648X.
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Moldavian Journal of the Physical Sciences
Numărul 1-2(13) / 2014 / ISSN 1810-648X /ISSNe 2537-6365

Bose-einstein condensation of two-dimensional polaritons in microcavity under the influence of the landau quantization and rashba spin-orbit coupling

Pag. 61-97

Moskalenko Vsevolod1, Dumanov Evgheni12, Podlesny Igor1, Liberman Michael34, Novikov Boris5, Rusu Spiridon12, Bajireanu Valentina1
 
1 Institute of Applied Physics, Academy of Sciences of Moldova,
2 Technical University of Moldova,
3 Institute of Technology and Stockholm University,
4 Moscow Institute of Physics and Technology,
5 Institute of Physics, St. Petersburg
 
Disponibil în IBN: 29 mai 2015


Rezumat

The Bose-Einstein condensation (BEC) of the two-dimensional (2D) magnetoexcitonpolaritons in microcavity, where the Landau quantization of the electron and hole states accompanied by the Rashba spinorbit coupling plays the main role, was investigated. The Landau quantization levels of the 2D heavy holes with nonparabolic dispersion law and third-order chirality terms both induced by the external electric field perpendicular to the semiconductor quantum well and strong magnetic field B give rise to a nonmonotonous dependence of the magnetoexciton energy levels and the polariton energy branches on B.