耦合到两个线性波导的非退化超拉曼过程动力学中的量子齐诺和反齐诺效应

IF 2.2 4区 物理与天体物理 Q2 PHYSICS, MULTIDISCIPLINARY
Moumita Das, Biswajit Sen, Kishore Thapliyal, Anirban Pathak
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引用次数: 0

摘要

从量子齐诺效应和反齐诺效应的角度研究了两个探针波导的存在对超拉曼过程动力学的影响。具体而言,由于通过倏逝波与探针波导的相互作用,超拉曼过程的演化的增强(减少)被视为量子Zeno(反Zeno)效应。这项研究考虑了两个探针波导一次只与一种光学模式相互作用。例如,作为一种特定的情况,认为两个非简并泵浦模式与每个探针波导线性相互作用,而斯托克斯和反斯托克斯模式不与探针相互作用。类似地,在另一种情况下,假设两个探针波导同时与斯托克斯(反斯托克斯)模式相互作用。研究结果表明,量子齐诺(反齐诺)效应与相位匹配(失配)有关。然而,它没有发现量子齐诺效应的存在与超拉曼过程中存在的玻色子模式中的反聚束之间的任何关系。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Quantum Zeno and Anti-Zeno Effects in the Dynamics of Non-Degenerate Hyper-Raman Processes Coupled to Two Linear Waveguides

The effect of the presence of two probe waveguides on the dynamics of hyper-Raman processes is studied in terms of quantum Zeno and anti-Zeno effects. Specifically, the enhancement (diminution) of the evolution of the hyper-Raman processes due to interaction with the probe waveguides via evanescent waves is viewed as quantum Zeno (anti-Zeno) effect. This study considers the two probe waveguides interacting with only one of the optical modes at a time. For instance, as a specific scenario, it is considered that the two non-degenerate pump modes interact with each probe waveguide linearly, while Stokes and anti-Stokes modes do not interact with the probes. Similarly, in another scenario, it is assumed both the probe waveguides interact with Stokes (anti-Stokes) mode simultaneously. The present results show that quantum Zeno (anti-Zeno) effect is associated with phase-matching (mismatching). However, it do not find any relation between the presence of the quantum Zeno effect and antibunching in the bosonic modes present in the hyper-Raman processes.

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来源期刊
Annalen der Physik
Annalen der Physik 物理-物理:综合
CiteScore
4.50
自引率
8.30%
发文量
202
审稿时长
3 months
期刊介绍: Annalen der Physik (AdP) is one of the world''s most renowned physics journals with an over 225 years'' tradition of excellence. Based on the fame of seminal papers by Einstein, Planck and many others, the journal is now tuned towards today''s most exciting findings including the annual Nobel Lectures. AdP comprises all areas of physics, with particular emphasis on important, significant and highly relevant results. Topics range from fundamental research to forefront applications including dynamic and interdisciplinary fields. The journal covers theory, simulation and experiment, e.g., but not exclusively, in condensed matter, quantum physics, photonics, materials physics, high energy, gravitation and astrophysics. It welcomes Rapid Research Letters, Original Papers, Review and Feature Articles.
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