Energy accommodation coefficient extracted from acoustic resonator experiments.

We review values of the temperature jump coefficient ζ T determined from measurements of the acoustic resonance frequencies f acoust of helium-filled and argon-filled, spherical cavities near ambient temperature. We combine these values of ζ T with literature data for tangential momentum accommodation coefficient (TMAC) and the Cercignani-Lampis model of the gas-surface interaction to obtain measurement-derived values of the normal energy accommodation coefficient (NEAC). We found that NEAC ranges from 0 to 0.1 for helium and from 0.61 to 0.85 for argon at ambient temperature for several different surfaces. We suggest that measurements of f acoust of gas-filled, cylindrical cavities and of the non-radial modes of quasi-spherical cavities might separately determine TMAC and NEAC. Alternatively, TMAC and NEAC could be determined by measuring the heat transfer and momentum transfer between parallel rotating discs at low pressure.