A unified theory of the self-similar supersonic Marshak wave problem

Krief, Menahem; McClarren, Ryan G.

doi:10.1063/5.0208111

Physics of Fluids

2024

DOI: 10.1063/5.0208111

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A unified theory of the self-similar supersonic Marshak wave problem

Menahem Krief,

Ryan G. McClarren

Abstract: We present a systematic study of the similarity solutions for the Marshak wave problem in the local thermodynamic equilibrium (LTE) diffusion approximation and in the supersonic regime. Self-similar solutions exist for a temporal power law surface temperature drive and a material model with power law temperature dependent opacity and energy density. The properties of the solutions in both linear and nonlinear conduction regimes are studied as a function of the temporal drive, opacity, and energy density expone… Show more

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Cited by 2 publications

References 78 publications

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Characterization of similar Marshak waves observed at the LMJ

Courtois,

Gisbert,

Botrel

et al. 2024

Physics of Plasmas

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We detail results of two experiments performed at the Laser Mégajoule (LMJ) facility aimed at studying similar supersonic Marshak waves propagating in a low-density SiO2 aerogel enclosed in metallic tubes. Similar means here that these two experiments, driven by the same input radiation temperature history, use purposely very different tubes in terms of length (L = 1200 or 2000 μm), diameter (2R = 1000 or 2000 μm), nature of the wall (gold or copper), and aerogel densities (ρ = 30 or 20 mg/cm3), yet the transit time and the radiation temperature of the fronts at the tube exit are the same for both shots. Marshak waves are characterized at the exit using simultaneously for the first time to our knowledge, a one dimensional soft x-ray imager from which the radiation front transit time and curvature are measured and also a broadband x-ray spectrometer to infer its temperature history. These constraining results are then successfully compared to those from simple analytical models [Cohen et al., Phys. Rev. Res. 2, 023007 (2020) and Hurricane et al., Phys. Plasmas 13, 113303 (2006)] and from the three dimensional Lagrangian radiation-hydrodynamics code TROLL to get information on x-ray energy losses. Controlled compensation effects between the length, diameter, and nature of the tubes (governing these losses) are such that the radiation temperature drop along the tubes is eventually the same for these two similar shots.

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Characterization of similar Marshak waves observed at the LMJ

Courtois,

Gisbert,

Botrel

et al. 2024

Physics of Plasmas

View full text Add to dashboard Cite

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The non-equilibrium Marshak wave problem in non-homogeneous media

Derei,

Balberg,

Heizler

et al. 2024

Physics of Fluids

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We derive a family of similarity solutions to the nonlinear non-equilibrium Marshak wave problem for an inhomogeneous planar medium, which is coupled to a time dependent radiation driving source. We employ the non-equilibrium gray diffusion approximation in the supersonic regime. The solutions constitute a generalization of the non-equilibrium nonlinear solutions that were developed recently for homogeneous media. Self-similar solutions are constructed for a power law time dependent surface temperature, a spatial power law density profile, and a material model with power law temperature and density dependent opacities and specific energy density. The extension of the problem to non-homogeneous media enables the existence of similarity solutions for a general power law specific material energy. It is shown that the solutions exist for specific values of the temporal temperature drive and spatial density exponents, which depend on the material exponents. We also illustrate how the similarity solutions take various qualitatively different forms which are analyzed with respect to various parameters. Based on the solutions, we define a set of non-trivial benchmarks for supersonic non-equilibrium radiative heat transfer. The similarity solutions are compared to gray diffusion simulations as well as to detailed implicit Monte Carlo and discrete-ordinate transport simulations in the optically thick regime, showing a great agreement, which highlights the benefit of these solutions as a code verification test problem.

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A unified theory of the self-similar supersonic Marshak wave problem

Cited by 2 publications

References 78 publications

Characterization of similar Marshak waves observed at the LMJ

Characterization of similar Marshak waves observed at the LMJ

The non-equilibrium Marshak wave problem in non-homogeneous media

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