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Nonequilibrium transitions, chaos, and chimera states in exciton—polariton systems

 a, b
a Institute of Solid State Physics, Russian Academy of Sciences, Akademika Osip'yana str. 2, Chernogolovka, Moscow Region, 142432, Russian Federation
b National Research University Higher School of Economics, ul. Myasnitskaya 20, Moscow, 101000, Russian Federation

The review is devoted to exciton polaritons, short-lived Bose particles which are optically excited in semiconductors and form macroscopically coherent states under the conditions of coherent and resonant external driving. Interaction of polaritons results in multistability, spontaneous breaking of spin and spatial symmetries, self-pulsations, and pattern formation. As a result of symmetry breaking, paradoxical 'chimera states' can arise in which ordered and chaotic subsystems coexist and in some way complement each other.

Fulltext is available at IOP
Keywords: polariton, Bose--Einstein condensate, spinor condensate, multistability, spontaneous symmetry breaking, self-pulsations, dynamical chaos, chimera states, self-organization
PACS: 03.75.Kk, 05.45.Xt, 05.65.+b, 42.65.Sf, 47.20.Ky, 71.36.+c (all)
DOI: 10.3367/UFNe.2019.04.038549
URL: https://ufn.ru/en/articles/2020/2/b/
Citation: Gavrilov S S "Nonequilibrium transitions, chaos, and chimera states in exciton—polariton systems" Phys. Usp. 63 123–144 (2020)
BibTexBibNote ® (generic)BibNote ® (RIS)Medline RefWorks
RT Journal
T1 Nonequilibrium transitions, chaos, and chimera states in exciton—polariton systems
A1 Gavrilov,S.S.
PB Physics-Uspekhi
PY 2020
FD 10 Feb, 2020
JF Physics-Uspekhi
JO Phys. Usp.
VO 63
IS 2
SP 123-144
DO 10.3367/UFNe.2019.04.038549
LK https://ufn.ru/en/articles/2020/2/b/

Received: 6th, September 2018, revised: 3rd, April 2019, 10th, April 2019

Оригинал: Гаврилов С С «Неравновесные переходы, хаос и химерные состояния в системах экситонных поляритонов» УФН 190 137–159 (2020); DOI: 10.3367/UFNr.2019.04.038549

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