Deceleration and Self-Compression of a Wave Pulse in a Discrete Medium

IF 0.8 4区 地球科学 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC Radiophysics and Quantum Electronics Pub Date : 2023-07-15 DOI:10.1007/s11141-023-10257-9
A. G. Litvak, V. A. Mironov, L. A. Smirnov, A. O. Sofonov
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Abstract

We consider the features of the dynamics of the wave-packet self-action within the framework of a model described by the one-dimensional discrete nonlinear Schrödinger equation with allowance for the effects of acoustic relaxation of the nonlinear response of the medium. Such models are actively used to describe the energy transfer along protein molecules. Analytical and numerical studies show that the dynamics of the wave packets with energies exceeding the critical values significantly differs from the field evolution in a continuous medium. The behavior of initially smooth (on the scale of the distance between the structural elements of the medium) and initially localized field distributions propagating at subsonic speed is studied in detail. A specific self-action regime, which is not characteristic of the continuous limit, is shown to exist where the wave packet, during its propagation, slows down to a complete stop while undergoing self-compression to the size of the lattice period. Radiation losses increase significantly at the final stage of this process and eventually lead to the formation of a soliton-like structure, which usually moves in the opposite direction (with respect to the initial one). In the case of wave packets with supersonic initial speed, the self-action dynamics develops in a similar way. However, in this case, the motion of the quasisoliton which carries most of the energy becomes subsonic during the backward propagation. As applied to the molecular chains, the considered effects lead to a noticeable increase in the localized action of the compressed excitation on individual structural elements of the discrete medium.

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离散介质中波脉冲的减速与自压缩
我们在一维离散非线性Schrödinger方程所描述的模型框架内考虑了波包自作用的动力学特征,并考虑了介质非线性响应的声松弛效应。这种模型被积极地用于描述沿蛋白质分子的能量传递。分析和数值研究表明,能量超过临界值的波包动力学与连续介质中的场演化有显著不同。详细研究了亚声速下初始平滑场分布(以介质结构单元之间的距离为尺度)和初始局域场分布的特性。一个特定的自作用状态,它不是连续极限的特征,被证明存在,其中波包,在其传播过程中,减速到完全停止,同时经历自压缩到晶格周期的大小。在这一过程的最后阶段,辐射损失显著增加,并最终导致一个类孤子结构的形成,它通常向相反的方向移动(相对于初始方向)。在具有超音速初始速度的波包情况下,自作用动力学也以类似的方式发展。然而,在这种情况下,携带大部分能量的准孤立子的运动在反向传播过程中变成亚音速。当应用于分子链时,所考虑的效应导致压缩激励对离散介质的单个结构元素的局部作用的显著增加。
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来源期刊
Radiophysics and Quantum Electronics
Radiophysics and Quantum Electronics ENGINEERING, ELECTRICAL & ELECTRONIC-PHYSICS, APPLIED
CiteScore
1.10
自引率
12.50%
发文量
60
审稿时长
6-12 weeks
期刊介绍: Radiophysics and Quantum Electronics contains the most recent and best Russian research on topics such as: Radio astronomy; Plasma astrophysics; Ionospheric, atmospheric and oceanic physics; Radiowave propagation; Quantum radiophysics; Pphysics of oscillations and waves; Physics of plasmas; Statistical radiophysics; Electrodynamics; Vacuum and plasma electronics; Acoustics; Solid-state electronics. Radiophysics and Quantum Electronics is a translation of the Russian journal Izvestiya VUZ. Radiofizika, published by the Radiophysical Research Institute and N.I. Lobachevsky State University at Nizhnii Novgorod, Russia. The Russian volume-year is published in English beginning in April. All articles are peer-reviewed.
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