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Effect of Thermal Conductivity, Compressive Viscosity and Radiative Cooling on the Phase Shift of Propagating Slow Waves with and Without Heating–Cooling Imbalance

Abhinav Prasad, A. K. Srivastava, Tongjiang Wang

2021Solar Physics23 citationsDOIOpen Access PDF

Topics & Concepts

Polytropic processPhysicsRadiative transferRadiative coolingDispersion relationPhase (matter)Thermal conductionThermalMagnetohydrodynamicsPhase velocityThermal conductivityMechanicsThermal radiationComputational physicsViscosityThermal equilibriumDispersion (optics)Heat capacity ratioCoronal loopWave propagationQuantum electrodynamicsThermodynamicsAtomic physicsRelaxation (psychology)Radiative equilibriumPlasmaAstrophysicsSpeed of soundThermodynamic equilibriumThermal expansionSolar and Space Plasma DynamicsIonosphere and magnetosphere dynamicsDust and Plasma Wave Phenomena
Effect of Thermal Conductivity, Compressive Viscosity and Radiative Cooling on the Phase Shift of Propagating Slow Waves with and Without Heating–Cooling Imbalance | Litcius