Modelling Thomson Scattering in a Hydrogen Plasma at Stellar Interior Conditions Using the Hypernetted-Chain Approach

Samuel Schumacher; Julian Lütgert; Dirk O. Gericke; Mandy Bethkenhagen; Tilo Döppner; Otto L. Landen; Nathaniel R. Shaffer; Charles E. Starrett; Dominik Kraus

doi:10.1002/ctpp.70002

Modelling Thomson Scattering in a Hydrogen Plasma at Stellar Interior Conditions Using the Hypernetted-Chain Approach

Samuel Schumacher
, Julian Lütgert
, Dirk O. Gericke
, Mandy Bethkenhagen
, Tilo Döppner
, Otto L. Landen
, Nathaniel R. Shaffer
, Charles E. Starrett
, Dominik Kraus

Universität Rostock
University of Warwick
Lawrence Livermore National Laboratory
University of Rochester Laboratory for Laser Energetics
MST-8, Los Alamos National Laboratory

Research output: Contribution to journal › Article › peer-review

Abstract

Under the extreme conditions found in small stars, where electron degeneracy and Coulomb coupling are significant, accurate modeling of Thomson scattering is crucial for determining opacity, a primary quantity for stellar energy transport. We use hypernetted-chain calculations, incorporating quantum pseudopotentials and electron-exchange effects to obtain the electron–electron static structure factor to calculate the Thomson scattering transport cross-section for conditions prevailing in the interior of small stars. These results are compared to those from average-atom simulations and analytical calculations. Our findings support laboratory astrophysics experiments aimed at benchmarking opacity models for stellar interiors, particularly for red dwarf stars, and help to bridge theoretical models with observations.

Original language	English
Article number	e70002
Journal	Contributions to Plasma Physics
Volume	65
Issue number	8-9
DOIs	https://doi.org/10.1002/ctpp.70002
Publication status	Published - 1 Oct 2025

Keywords

ICF
Thomson scattering
dense plasma
hydrogen
radiation transport
static structure factor

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10.1002/ctpp.70002

Cite this

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title = "Modelling Thomson Scattering in a Hydrogen Plasma at Stellar Interior Conditions Using the Hypernetted-Chain Approach",

abstract = "Under the extreme conditions found in small stars, where electron degeneracy and Coulomb coupling are significant, accurate modeling of Thomson scattering is crucial for determining opacity, a primary quantity for stellar energy transport. We use hypernetted-chain calculations, incorporating quantum pseudopotentials and electron-exchange effects to obtain the electron–electron static structure factor to calculate the Thomson scattering transport cross-section for conditions prevailing in the interior of small stars. These results are compared to those from average-atom simulations and analytical calculations. Our findings support laboratory astrophysics experiments aimed at benchmarking opacity models for stellar interiors, particularly for red dwarf stars, and help to bridge theoretical models with observations.",

keywords = "ICF, Thomson scattering, dense plasma, hydrogen, radiation transport, static structure factor",

author = "Samuel Schumacher and Julian L{\"u}tgert and Gericke, \{Dirk O.\} and Mandy Bethkenhagen and Tilo D{\"o}ppner and Landen, \{Otto L.\} and Shaffer, \{Nathaniel R.\} and Starrett, \{Charles E.\} and Dominik Kraus",

note = "Publisher Copyright: {\textcopyright} 2025 The Author(s). Contributions to Plasma Physics published by Wiley-VCH GmbH.",

year = "2025",

month = oct,

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doi = "10.1002/ctpp.70002",

language = "English",

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TY - JOUR

T1 - Modelling Thomson Scattering in a Hydrogen Plasma at Stellar Interior Conditions Using the Hypernetted-Chain Approach

AU - Schumacher, Samuel

AU - Lütgert, Julian

AU - Gericke, Dirk O.

AU - Bethkenhagen, Mandy

AU - Döppner, Tilo

AU - Landen, Otto L.

AU - Shaffer, Nathaniel R.

AU - Starrett, Charles E.

AU - Kraus, Dominik

PY - 2025/10/1

Y1 - 2025/10/1

N2 - Under the extreme conditions found in small stars, where electron degeneracy and Coulomb coupling are significant, accurate modeling of Thomson scattering is crucial for determining opacity, a primary quantity for stellar energy transport. We use hypernetted-chain calculations, incorporating quantum pseudopotentials and electron-exchange effects to obtain the electron–electron static structure factor to calculate the Thomson scattering transport cross-section for conditions prevailing in the interior of small stars. These results are compared to those from average-atom simulations and analytical calculations. Our findings support laboratory astrophysics experiments aimed at benchmarking opacity models for stellar interiors, particularly for red dwarf stars, and help to bridge theoretical models with observations.

AB - Under the extreme conditions found in small stars, where electron degeneracy and Coulomb coupling are significant, accurate modeling of Thomson scattering is crucial for determining opacity, a primary quantity for stellar energy transport. We use hypernetted-chain calculations, incorporating quantum pseudopotentials and electron-exchange effects to obtain the electron–electron static structure factor to calculate the Thomson scattering transport cross-section for conditions prevailing in the interior of small stars. These results are compared to those from average-atom simulations and analytical calculations. Our findings support laboratory astrophysics experiments aimed at benchmarking opacity models for stellar interiors, particularly for red dwarf stars, and help to bridge theoretical models with observations.

KW - ICF

KW - Thomson scattering

KW - dense plasma

KW - hydrogen

KW - radiation transport

KW - static structure factor

UR - https://www.scopus.com/pages/publications/105001811572

U2 - 10.1002/ctpp.70002

DO - 10.1002/ctpp.70002

M3 - Article

AN - SCOPUS:105001811572

SN - 0863-1042

VL - 65

JO - Contributions to Plasma Physics

JF - Contributions to Plasma Physics

IS - 8-9

M1 - e70002

ER -

Modelling Thomson Scattering in a Hydrogen Plasma at Stellar Interior Conditions Using the Hypernetted-Chain Approach

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Keywords

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