First-Principles Estimation of Electronic Temperature from X-Ray Thomson Scattering Spectrum of Isochoricaliy Heated Warm Dense Matter

Mo Chongjie; Fu Zhenguo; Kang Wei; Zhang Ping; He X. T.

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First-Principles Estimation of Electronic Temperature from X-Ray Thomson Scattering Spectrum of Isochoricaliy Heated Warm Dense Matter

机译：从等温加热热致密物的X射线汤姆森散射光谱估算电子温度的第一性原理

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Through the perturbation formula of time-dependent density functional theory broadly employed in the calculation of solids, we provide a first-principles calculation of x-ray Thomson scattering spectrum of isochorically heated aluminum foil, as considered in the experiments of Sperling et al. [Phys. Rev. Lett. 115, 115001 (2015)], where ions were constrained near their lattice positions. From the calculated spectra, we find that the electronic temperature cannot exceed 2 eV, much smaller than the previous estimation of 6 eV via the detailed balance relation. Our results may well be an indication of unique electronic properties of warm dense matter, which can be further illustrated by future experiments. The lower electronic temperature predicted partially relieves the concern on the heating of x-ray free electron laser to the sample when used in structure measurement.

机译：通过在固体计算中广泛使用的随时间变化的密度泛函理论的扰动公式，我们提供了等时加热铝箔的X射线Thomson散射光谱的第一性原理计算，这是在Sperling等人的实验中考虑的。 [物理牧师115，115001（2015）]，其中离子被限制在其晶格位置附近。从计算的光谱中，我们发现电子温度不能超过2 eV，比通过详细的平衡关系先前估计的6 eV小得多。我们的结果很可能表明温暖的致密物质具有独特的电子特性，可以通过将来的实验进一步说明。当用于结构测量时，预测的较低电子温度部分缓解了对将X射线自由电子激光加热到样品的担忧。

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《Physical review letters 》 |2018年第20期| 205002.1-205002.6| 共6页
作者
Mo Chongjie; Fu Zhenguo; Kang Wei; Zhang Ping; He X. T.;
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Peking Univ, Ctr Appl Phys & Technol, HEDPS, Beijing 100871, Peoples R China;

Inst Appl Phys & Computat Math, Beijing 100088, Peoples R China;

Peking Univ, Ctr Appl Phys & Technol, HEDPS, Beijing 100871, Peoples R China;

Peking Univ, Ctr Appl Phys & Technol, HEDPS, Beijing 100871, Peoples R China;

Peking Univ, Ctr Appl Phys & Technol, HEDPS, Beijing 100871, Peoples R China;

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1. First-principles method for x-ray Thomson scattering including both elastic and inelastic features in warm dense matter [J] . Chongjie Mo, Zhen-Guo Fu, Ping Zhang, Physical review.B.Condensed matter and materials physics . 2020 ,第19期

机译：X射线汤姆森散射的第一原理方法，包括温度致密物质的弹性和非弹性特征
2. Demonstration of X-ray Thomson scattering as diagnostics for miscibility in warm dense matter [J] . S. Frydrych, J. Vorberger, N. J. Hartley, Nature Communications . 2020 ,第1期

机译：X射线汤姆森散射作为诊断诊断，如热致密物质的混溶性
3. Demonstration of space-resolved x-ray Thomson scattering capability for warm dense matter experiments on the Z accelerator [J] . Ao T., Harding E. C., Bailey J. E., High energy density physics . 2016 ,第Null期

机译：在Z加速器上进行热致密物质实验的空间分辨X射线汤姆逊散射能力的证明
4. Using collective x-ray Thomson scattering to measure temperature and density of warm dense matter [C] . T. Doeppner, P.F. Davis, A.L. Kritcher, Soft x-ray lasers and applications VIII . 2009

机译：使用集体X射线汤姆森散射测量温暖的致密物质的温度和密度
5. Using X-Ray Thomson Scattering to Measure Plasma Conditions in Warm Dense Matter Experiments on the OMEGA Laser [D] . Saunders, Alison Marie-Anne. 2018

机译：使用X射线汤姆森散射来测量ωlass的温致密物质实验中的等离子体条件
6. Measurement of temperature and density using non-collective X-ray Thomson scattering in pulsed power produced warm dense plasmas [O] . J. C. Valenzuela, C. Krauland, D. Mariscal, -1

机译：使用非集体X射线汤姆森散射在脉冲功率产生的热致密等离子体中测量温度和密度
7. Demonstration of X-ray Thomson scattering as diagnostics for miscibility in warm dense matter [O] . S. Frydrych, J. Vorberger, N. J. Hartley, 2020

机译：X射线汤姆森散射作为诊断诊断，如热致密物质的混溶性

First-Principles Estimation of Electronic Temperature from X-Ray Thomson Scattering Spectrum of Isochoricaliy Heated Warm Dense Matter

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