Electron-phonon coupling and electron heat capacity of metals under conditions of strong electron-phonon nonequilibrium

材料科学 电子 热容 凝聚态物理 温度电子 声子 非平衡态热力学 联轴节(管道) 飞秒 原子物理学 激光器 物理 热力学 光学 冶金 量子力学
作者
Zhibin Lin,Leonid V. Zhigilei,V. Celli
出处
期刊:Physical Review B [American Physical Society]
卷期号:77 (7) 被引量:1369
标识
DOI:10.1103/physrevb.77.075133
摘要

The dependence of the strength of the electron-phonon coupling and the electron heat capacity on the electron temperature is investigated for eight representative metals, Al, Cu, Ag, Au, Ni, Pt, W, and Ti, for the conditions of strong electron-phonon nonequilibrium. These conditions are characteristic of metal targets subjected to energetic ion bombardment or short-pulse laser irradiation. Computational analysis based on first-principles electronic structure calculations of the electron density of states predicts large deviations (up to an order of magnitude) from the commonly used approximations of linear temperature dependence of the electron heat capacity and a constant electron-phonon coupling. These thermophysical properties are found to be very sensitive to details of the electronic structure of the material. The strength of the electron-phonon coupling can either increase (Al, Au, Ag, Cu, and W), decrease (Ni and Pt), or exhibit nonmonotonic changes (Ti) with increasing electron temperature. The electron heat capacity can exhibit either positive (Au, Ag, Cu, and W) or negative (Ni and Pt) deviations from the linear temperature dependence. The large variations of the thermophysical properties, revealed in this work for the range of electron temperatures typically realized in femtosecond laser material processing applications, have important implications for quantitative computational analysis of ultrafast processes associated with laser interaction with metals.
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