Heating Through Phonon Excitation Implied by Collapse Models

Abstract

We calculate the rate of heating through phonon excitation implied by the noise postulated in mass-proportional-coupled collapse models, for a general noise power spectrum. For white noise with reduction rate λ, the phonon heating rate reduces to the standard formula, but for non-white noise with power spectrum λ(ω), the rate λ is replaced by λ eff=23 π3/2 ∫ d3w e- w2 w2 λ(ωL( w/rc)), with ωL( q) the longitudinal acoustic phonon frequency as a function of wave number q, and with rC the noise correlation length. Hence if the noise power spectrum is cut off below ωL(| q| rc-1), the heating rate is sharply reduced.