Rarefied hypersonic bow shocks over a cylinder inflate via multi-scale compression-relaxation with density becoming nearly rank-one while Mach and thermal fields retain independent modes, as separated by Knudsen and Mach sweeps in DSMC data.
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The UGKWP method decomposes gas distribution functions into hydrodynamic waves and particles for binary-species mixtures, recovers correct transport coefficients via Groppi and Shakhov models, and matches DSMC results in hypersonic tests.
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Rarefaction-induced inflation and similarity breakdown of hypersonic bow shocks over a circular cylinder
Rarefied hypersonic bow shocks over a cylinder inflate via multi-scale compression-relaxation with density becoming nearly rank-one while Mach and thermal fields retain independent modes, as separated by Knudsen and Mach sweeps in DSMC data.
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A unified gas-kinetic wave-particle method for multiscale binary-species gas mixtures
The UGKWP method decomposes gas distribution functions into hydrodynamic waves and particles for binary-species mixtures, recovers correct transport coefficients via Groppi and Shakhov models, and matches DSMC results in hypersonic tests.