Effect of relativistic mass variation of electron on nonlinear parametric dispersion characteristics in magnetised semiconductor plasmas

ADVANCES IN BASIC SCIENCE (ICABS 2019) Pub Date : 2019-08-29 DOI:10.1063/1.5122374
S. Chouhan, S. Dubey, S. Ghosh
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引用次数: 1

Abstract

Hydrodynamic model for magnetised semiconductor plasma along with coupled mode approach has been used to study parametric dispersion and threshold characteristics for relativistic mass variation of electrons. Expression for nonlinear second order susceptibility and threshold pump field required to incite parametric interaction in semiconductor plasma has been derived. Effects of various parameters on threshold pump field as well as dispersion coefficient have been plotted for a doped InSb crystal duly irradiated by CO2 laser at 77K. External magnetic field and doping concentrations emerged as control parameters for favourable threshold and dispersion characteristics of the medium.
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电子的相对论性质量变化对磁化半导体等离子体非线性参量色散特性的影响
利用磁化半导体等离子体的流体动力学模型和耦合模式方法研究了电子相对论性质量变化的参数色散和阈值特性。导出了半导体等离子体中激发参数相互作用所需的非线性二阶磁化率和阈值泵浦场的表达式。在77K CO2激光照射下,绘制了不同参数对掺杂InSb晶体阈值泵浦场和色散系数的影响。外磁场和掺杂浓度成为介质有利阈值和色散特性的控制参数。
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ADVANCES IN BASIC SCIENCE (ICABS 2019)
ADVANCES IN BASIC SCIENCE (ICABS 2019)
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