In the LTE regime, reflection can be neglected, and thus the friction is determined by the change in momen- tum as the fluid crosses the wall [37–39]

Friction in LTE Regime Following the ballistic regime, we examine the balance between the back reaction (friction) from the fluid, the driving force, which is crucial for determ

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Hydrodynamics of Filtered Dark Matter: A Two-Component Approach

hep-ph · 2026-04-19 · unverdicted · novelty 6.0

Filtered Dark Matter hydrodynamics during first-order phase transitions is modeled as a two-component fluid, yielding detonation-like and deflagration-like solutions in ballistic and local thermal equilibrium regimes that change relic abundance predictions.

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Hydrodynamics of Filtered Dark Matter: A Two-Component Approach hep-ph · 2026-04-19 · unverdicted · none · ref 5
Filtered Dark Matter hydrodynamics during first-order phase transitions is modeled as a two-component fluid, yielding detonation-like and deflagration-like solutions in ballistic and local thermal equilibrium regimes that change relic abundance predictions.

In the LTE regime, reflection can be neglected, and thus the friction is determined by the change in momen- tum as the fluid crosses the wall [37–39]

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