通过超快电子衍射和瞬态光学测量观察到的过渡金属薄膜的电子与晶格动力学。

Electron and lattice dynamics of transition metal thin films observed by ultrafast electron diffraction and transient optical measurements.

作者信息

Nakamura A, Shimojima T, Nakano M, Iwasa Y, Ishizaka K

机构信息

Quantum-Phase Electronics Center and Department of Applied Physics, The University of Tokyo , Bunkyo, Tokyo 113-8656, Japan.

出版信息

Struct Dyn. 2016 Dec 7;3(6):064501. doi: 10.1063/1.4971210. eCollection 2016 Nov.

DOI:10.1063/1.4971210

PMID:28004010

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5148764/

Abstract

We report the ultrafast dynamics of electrons and lattice in transition metal thin films (Au, Cu, and Mo) investigated by a combination of ultrafast electron diffraction (UED) and pump-probe optical methods. For a single-crystalline Au thin film, we observe the suppression of the diffraction intensity occuring in 10 ps, which direcly reflects the lattice thermalization via the electron-phonon interaction. By using the two-temperature model, the electron-phonon coupling constant () and the electron and lattice temperatures (, ) are evaluated from UED, with which we simulate the transient optical transmittance. The simulation well agrees with the experimentally obtained transmittance data, except for the slight deviations at the initial photoexcitation and the relaxed quasi-equilibrium state. We also present the results similarly obtained for polycrystalline Au, Cu, and Mo thin films and demonstrate the electron and lattice dynamics occurring in metals with different electron-phonon coupling strengths.

摘要

我们报告了通过超快电子衍射（UED）和泵浦-探测光学方法相结合研究的过渡金属薄膜（金、铜和钼）中电子和晶格的超快动力学。对于单晶金薄膜，我们观察到在10皮秒内衍射强度的抑制，这直接反映了通过电子-声子相互作用的晶格热化。通过使用双温度模型，从UED评估电子-声子耦合常数（）以及电子和晶格温度（，），并用其模拟瞬态光学透过率。模拟结果与实验获得的透过率数据吻合良好，除了在初始光激发和弛豫准平衡状态下有轻微偏差。我们还展示了多晶金、铜和钼薄膜类似的研究结果，并证明了在具有不同电子-声子耦合强度的金属中发生的电子和晶格动力学。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/39b5/5148764/7ed38204df09/SDTYAE-000003-064501_1-g001.jpg

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通过超快电子衍射和瞬态光学测量观察到的过渡金属薄膜的电子与晶格动力学。

Electron and lattice dynamics of transition metal thin films observed by ultrafast electron diffraction and transient optical measurements.

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