热载流子对均匀纵向磁化应变相关介质中高斯高功率螺旋波调幅解调的影响

S. Saxena, S. Dixit, S. Srivastava
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摘要

本文利用流体力学模型研究了在含载流子加热(CH)效应的应变相关介质中,高功率螺旋泵波电磁波的调幅和解调成另一螺旋波的过程。在声螺旋波的放大分析中,考虑CH在调制解调中的作用对于增加新的维度是至关重要的。利用色散关系,讨论了远高于阈值的高功率螺旋波调制解调产生的阈值泵浦电场和不稳定模的增长率。采用应变相关介质BaTiO3在室温下,以频率为1.78 × 1014 Hz的高功率螺旋波辐照进行了数值分析。由于BaTiO3材料对泵浦光强非常敏感,因此在研究中考虑了螺旋泵浦波在依赖染色介质中传播时的高斯形状,并沿BaTiO3晶体平面纵向诱导出高斯型(ω0,κ0)的光声波。其变化是由可用磁场(ωc)、相互作用长度(z)和相互作用脉冲持续时间(τ)引起的。从数值结果分析可知,加入CH效应可以有效地改变高功率螺旋激光波幅值在扩散过程中的调制或解调幅度。不仅是对波的调幅和解调,CH的扩散也有效地改变了BaTiO3中频率不稳定模式的增长率。阈值电场的传播表现为正弦或完全高斯分布,而这种分布在不稳定模式的生长中完全消失。在载流子加热扩散过程中,其生长速率为108 ~ 1010 s-1级,随着磁化频率从1到2.5 × 1014 Hz的变化,其生长速率从1010 ~ 1012 s-1级增强。
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Effect of Hot Carrier on Amplitude Modulation and Demodulation of Gaussian High Power Helicon Wave in Homogeneous Longitudinally Magnetized Strain Dependent Dielectric Material
In the present communication, the hydrodynamic model is used to investigate the amplitude modulation as well as demodulation of an electromagnetic wave of high power helicon pump wave into another helicon wave in strain dependent dielectric material incorporating carrier heating (CH) effects. The consideration of CH in modulation and demodulation is prime importance for the adding of new dimension in analysis of amplification of acoustic helicon wave. By using the dispersion relation, threshold pump electric filed and growth rate of unstable mode from the modulation and demodulation of the high power helicon wave well above from the threshold value will be discussed in the present analysis. The numerical analysis is applied to a strain dependent dielectric material, BaTiO3 at room temperature and irradiated with high power helicon wave of frequency 1.78 × 1014 Hz. This material is very sensitive to the pump intensities, therefore during studies, Gaussian shape of the helicon pump wave is considered during the propagation in stain dependent dielectric material and opto-acoustic wave in the form of Gaussian profile (ω0,κ0) is induced longitudinally along the crystallographic plane of BaTiO3. Its variation is caused by the available magnetic field (ωc), interaction length (z) and pulsed duration of interaction (τ). From the analysis of numerical results, the incorporation of CH effect can effectively modify the magnitude of modulation or demodulation of the amplitude of high power helicon laser wave through diffusion process. Not only the amplitude modulation and demodulation of the wave, the diffusion of the CH effectively modifies the growth rate of unstable mode of frequency in BaTiO3. The propagation of the threshold electric field shows the sinusoidal or complete Gaussian profile, whereas this profile is found to be completely lost in growth of unstable mode. It has also been seen that the growth rate is observed to be of the order of 108 - 1010 s-1 but from diffusion of carrier heating, and that its order is enhanced from 1010 - 1012 s-1 with the variation of the magnetized frequency from 1 to 2.5 × 1014 Hz.
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