从共振振动模式看掺染玻璃中的声子诱导谱线展宽:聚异丁烯中的四叔丁基苯乙烯

IF 1.4 4区 物理与天体物理 Q3 PHYSICS, MULTIDISCIPLINARY
A. O. Savostianov, A. V. Naumov
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引用次数: 0

摘要

此前[PRB 110, 045430 (2024)],我们已经证明,嵌入无定形聚异丁烯基体中的单个四叔丁基丙烯分子的零声子线展宽是由于主正常模式上的杂质效应与共振振动模式耦合的结果。然而,问题仍然是这一模型是否与之前针对同一主/客体系统获得的大量单分子光谱和光子回波数据相兼容。在本研究中,我们展示了在电子-声子耦合非微扰理论框架下处理的共振模式模型的高预测能力,以及与所有实验数据的良好一致性。此外,对于单分子数据,我们发现杂质分子的力常数存在意想不到的巨大离散性。为了解释这种离散性,我们提出了一个简单的微观模型,假定杂质分子与其最近的周围环境之间的距离存在波动。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Phonon-Induced Spectral Line Broadening in Dye-Doped Glass in Terms of Resonant Vibrational Modes: Tetra-tert-Butylterrylene in Polyisobutylene

Phonon-Induced Spectral Line Broadening in Dye-Doped Glass in Terms of Resonant Vibrational Modes: Tetra-tert-Butylterrylene in Polyisobutylene

Previously [A.O. Savostianov, I.Yu. Eremchev, T. Plakhotnik, and A.V. Naumov, Phys. Rev. B 110, 045430 (2024)], we have shown that the zero-phonon line broadening of single tetra-tert-butylterrylene molecules embedded in the matrix of amorphous polyisobutylene is a result of coupling with resonant vibrational modes arising due to the impurity effect on the host normal modes. However, the question remained whether this model would be compatible with the extensive single-molecule spectroscopy and photon echo data previously obtained for the same host/guest system. In the present work we demonstrate the high predictive power of the resonant mode model treated in the framework of the non-perturbative theory of electron–phonon coupling, and good agreement with all experimental data. Furthermore, for single-molecule data we find an unexpectedly large dispersion of the force constants for impurity molecules. To explain this dispersion, we propose a simple microscopic model that assumes fluctuations in the distance between the impurity molecule and its nearest surroundings.

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来源期刊
JETP Letters
JETP Letters 物理-物理:综合
CiteScore
2.40
自引率
30.80%
发文量
164
审稿时长
3-6 weeks
期刊介绍: All topics of experimental and theoretical physics including gravitation, field theory, elementary particles and nuclei, plasma, nonlinear phenomena, condensed matter, superconductivity, superfluidity, lasers, and surfaces.
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