Constraining Temperature Profiles in High Energy Density Matter Through High-resolution X-ray Spectroscopy

Nicholas F Beier; Bassam Nima; Vigneshvar Senthilkumaran; Hunter G Allison; Yasmeen Musthafa; Mahek Logantha; Philip C Efthimion; Lan Gao; Kenneth W Hill; Kirk A Flippo; Stephanie B Hansen; Reed C Hollinger; Ryan Nedbailo; Huanyu Song; Shoujun Wang; Vyacheslav Shlyaptsev; Ronnie L Shepherd; Franklin J Dollar; Jorge J Rocca; Amina E Hussein

Constraining Temperature Profiles in High Energy Density Matter Through High-resolution X-ray Spectroscopy

ORAL

Abstract

High energy density (HED) matter exists in extremes of temperature and density characterized by energy densities exceeding 10¹¹ J/m³ . Short-pulse, laser-solid interactions provide a unique platform to develop well-characterized laboratory HED conditions to diagnose fundamental properties such as opacity and equations of state, needed to benchmark atomic physics models and simulations tools. Experiments performing high-resolution (E/ΔE > 7500) X-ray spectroscopy of copper K-shell emission using the high-contrast, high-intensity (I ∼10²¹W/cm² ) ALEPH 400 nm laser at Colorado State University demonstrate the generation of micron-scale, uniformly-heated, solid-density plasmas with electron densities exceeding 10²⁴ cm^-3 and temperatures exceeding 3 keV. Simultaneous measurement of front-side and rear-side K-shell fluorescence reveals opacity effects within the highly-ionized plasma conditions that indicate significant plasma bulk heating driven by refluxing electrons. We implement a Monte Carlo algorithm to further constrain the plasma heating profiles by estimating the probability distribution of temperature profiles derived from collisional-radiative modeling

Oct. 21, 2022, 3:06 PM – Oct. 21, 2022, 3:18 PM

Publication: N. F. Beier, et al., Homogeneous, Micron-scale High Energy Density Matter Generated by Relativistic Laser-solid<br>Interactions (Submitted Phys. Rev. Lett.)

Presenters

Nicholas F Beier

University of Alberta

Authors

Nicholas F Beier

University of Alberta
Bassam Nima

University of Alberta
Vigneshvar Senthilkumaran

University of Alberta
Hunter G Allison

University of California, Irvine
Yasmeen Musthafa

University of California, Irvine, TAE Technologies, Inc.
Mahek Logantha

University of California, Irvine
Philip C Efthimion

Princeton Plasma Physics Laboratory, PPPL
Lan Gao

PPPL, Princeton Plasma Physics Laboratory
Kenneth W Hill

PPPL, Princeton Plasma Physics Laboratory
Kirk A Flippo

Los Alamos Natl Lab, Los Alamos National Laboratory
Stephanie B Hansen

Sandia National Laboratories
Reed C Hollinger

Colorado State University
Ryan Nedbailo

Colorado State University, Colorado state university
Huanyu Song

Colorado State University
Shoujun Wang

Colorado State University
Vyacheslav Shlyaptsev

Colorado State University
Ronnie L Shepherd

Lawrence Livermore Natl Lab
Franklin J Dollar

University of California, Irvine
Jorge J Rocca

Colorado State University
Amina E Hussein

Univ of Alberta, University of Alberta, Canada