Minimum Interior Temperature for Solid Objects Implied by Collapse Models

Abstract

Heating induced by the noise postulated in wave function collapse models leads to a lower bound to the temperature of solid objects. For the noise parameter values λ = coupling~strength 10-8 s-1 and rC = correlation~length 10-5 cm, which were suggested adler1 to make latent image formation an indicator of wave function collapse and which are consistent with the recent experiment of Vinante et al. vin, the effect may be observable. For metals, where the heat conductivity is proportional to the temperature at low temperatures, the lower bound (specifically for RRR=30 copper) is 5× 10-11 (L/rC) K, with L the size of the object. For the thermal insulator Torlon 4203, the comparable lower bound is 3 × 10-6 (L/rc)0.63 K. We first give a rough estimate for a cubical metal solid, and then give an exact solution of the heat transfer problem for a sphere.