受激量子材料的非热控制:超快电子散射和成像的框架和研究

IF 1.3 4区 物理与天体物理 Q3 ASTRONOMY & ASTROPHYSICS
Xiaoyi Sun, Shuaishuai Sun, Chong-Yu Ruan
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引用次数: 2

摘要

应用超短激光脉冲的量子材料系统提供了一个丰富的平台,可以访问不完全像其平衡对应物一样的激发材料相及其转换。亚稳态或长捕获的非平衡相的可寻址性和潜在控制对于理解非平衡物理和推进量子技术都具有重要意义。到目前为止,动态光谱探测主要集中在微观的电子和声子响应上。超快散射探针对于表征长时间动力学,如序参量场和波动效应,提供了直接的灵敏度。建立微观动力学和宏观响应之间的联系是建立光诱导相背后的非平衡物理的核心。在这里,我们通过交叉检验与不同动态状态相关的结构因素,从超快电子散射、成像和建模中获得了这样的理解。给出了描述非平衡散射问题的基本理论框架,并简要描述了该框架与非平衡散射现象的关系。我们给出了有效的模型,概述了真空悬浮稀土三碲化物、二硫化钽薄膜和二氧化钒纳米晶体材料在光激发下的非热临界点、隐藏相和非平衡弛豫响应的出现。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Toward nonthermal control of excited quantum materials: framework and investigations by ultrafast electron scattering and imaging
Quantum material systems upon applying ultrashort laser pulses provide a rich platform to access excited material phases and their transformations that are not entirely like their equilibrium counterparts. The addressability and potential controls of metastable or long-trapped out-of-equilibrium phases have motivated interests both for the purposes of understanding the nonequilibrium physics and advancing the quantum technologies. Thus far, the dynamical spectroscopic probes eminently focus on microscopic electronic and phonon responses. For characterizing the long-range dynamics, such as order parameter fields and fluctuation effects, the ultrafast scattering probes offer direct sensitivity. Bridging the connections between the microscopic dynamics and macroscopic responses is central toward establishing the nonequilibrium physics behind the light-induced phases. Here, we present a path toward such understanding by cross-examining the structure factors associated with different dynamical states obtained from ultrafast electron scattering, imaging, and modeling. We give the basic theoretical framework on describing the non-equilibrium scattering problems and briefly describe how such framework relates to the out-of-equilibrium phenomena. We give effective models outlining the emergences of nonthermal critical points, hidden phases, and non-equilibrium relaxational responses from vacuum-suspended rare-earth tritellurides, tantalum disulfides thin films, and vanadium dioxide nanocrystalline materials upon light excitations.
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来源期刊
Comptes Rendus Physique
Comptes Rendus Physique 物理-天文与天体物理
CiteScore
2.80
自引率
0.00%
发文量
13
审稿时长
17.2 weeks
期刊介绍: The Comptes Rendus - Physique are an open acess and peer-reviewed electronic scientific journal publishing original research article. It is one of seven journals published by the Académie des sciences. Its objective is to enable researchers to quickly share their work with the international scientific community. The Comptes Rendus - Physique also publish journal articles, thematic issues and articles on the history of the Académie des sciences and its current scientific activity. From 2020 onwards, the journal''s policy is based on a diamond open access model: no fees are charged to authors to publish or to readers to access articles. Thus, articles are accessible immediately, free of charge and permanently after publication. The Comptes Rendus - Physique (8 issues per year) cover all fields of physics and astrophysics and propose dossiers. Thanks to this formula, readers of physics and astrophysics will find, in each issue, the presentation of a subject in particularly rapid development. The authors are chosen from among the most active researchers in the field and each file is coordinated by a guest editor, ensuring that the most recent and significant results are taken into account. In order to preserve the historical purpose of the Comptes Rendus, these issues also leave room for the usual notes and clarifications. The articles are written mainly in English.
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