同向旋转双色圆偏振激光场对单层氧化锌高阶谐波产生的调制

IF 3.5 2区 物理与天体物理 Q1 PHYSICS, MULTIDISCIPLINARY
Yue Qiao, Jiaqi Chen, Shushan Zhou, Jigen Chen, Shicheng Jiang, Yu-Jun Yang
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引用次数: 0

摘要

本文通过数值求解二维半导体布洛赫方程,研究了单层氧化锌在共旋双色圆偏振激光脉冲驱动下的高阶谐波发射。研究发现,通过改变基频场和第二基频场之间的相对相位,可以显著调制平台区的谐波强度。在高阶,谐波强度可以增加约一个数量级。通过时频分析表明,单层氧化锌的发射轨迹可以通过相对相位进行同调,谐波增强是由发射概率较高的第二量子轨迹引起的。此外,在共旋双色圆极化场中还能产生近圆极化谐波。随着相对相位的改变,平台区域的谐波可以从左旋近圆偏振变为右旋近圆偏振。我们的研究结果可以获得椭圆度可调的高强度谐波辐射,这为合成圆极化阿秒脉冲提供了机会。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Modulation of high-order harmonic generation from a monolayer ZnO by co-rotating two-color circularly polarized laser fields
By numerically solving the two-dimensional semiconductor Bloch equation, this paper studies the high-order harmonic emission of a monolayer ZnO under the driving of co-rotating two-color circularly polarized laser pulses. By changing the relative phase between the fundamental frequency field and the second one, it is found that the harmonic intensity in the platform region can be significantly modulated. In the higher order, the harmonic intensity can be increased by about one order of magnitude. Through time-frequency analysis, it is demonstrated that the the emission trajectory of monolayer ZnO can be cotrolled by the relative phase, and the harmonic enhacment is caused by the second quantum trajectory with the higher emission probability. In addition, near-circularly polarized harmonics can be generated in the co-rotating two-color circularly polarized fields. With the change of the relative phase, the harmonics in the platform region can be altered from left-handed near-circularly polarization to right-handed one. Our results can obtain high-intensity harmonic radiation with an adjustable ellipticity, which provides an opportunity for the synthesis of circularly polarized attosecond pulses.
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来源期刊
Chinese Physics Letters
Chinese Physics Letters 物理-物理:综合
CiteScore
5.90
自引率
8.60%
发文量
13238
审稿时长
4 months
期刊介绍: Chinese Physics Letters provides rapid publication of short reports and important research in all fields of physics and is published by the Chinese Physical Society and hosted online by IOP Publishing.
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