Структура и особенности автомодуляции сверхизлучательных состояний в асимметричном резонаторе Фабри-Перо

Физика и техника полупроводников Pub Date : 2023-01-01 DOI:10.21883/ftp.2023.05.56202.29k

Е.Р. Кочаровская, Владимир Владиленович Кочаровский

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Abstract

The dependence of the structure and stability of strongly asymmetric stationary states of a superradiant laser with a slightly asymmetric low-Q Fabry-Perot cavity on its length, reflection factors of mirrors, and pumping level is studied. The states are related to a self-consistent inhomogeneous half-wavelength population inversion grating. The possibility of the existence of two dynamic phase transitions from a stationary (monochromatic) state of this type to a nonstationary one is established: 1) a dissipative superradiant transition to a regime with a quasi-continuous lasing spectrum (in a weakly asymmetric cavity) and 2) a self-modulation transition to a regime with a discrete lasing spectrum. It is shown that the latter can be caused by excitation of both polariton and electromagnetic laser modes due to resonant Rabi oscillations of active centers with a sufficiently long phase relaxation time.

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fabri羽毛共振器超辐射状态的自调制结构和特征

研究了具有微非对称低q法布里-珀罗腔的超辐射激光器强非对称定态的结构和稳定性与激光器长度、反射镜反射系数和抽运能级的关系。这些态与自洽非均匀半波长居群反演光栅有关。建立了从稳态(单色)到非稳态的两种动态相变存在的可能性:1)耗散超辐射过渡到具有准连续激光光谱的状态(在弱不对称腔中)和2)自调制过渡到具有离散激光光谱的状态。结果表明，后者可以由极化激子和电磁激光模式的激发引起，这是由于有足够长的相位弛豫时间的活性中心的共振拉比振荡引起的。

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Физика и техника полупроводников

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