English

Bulk Heating Effects as Tests for Collapse Models

Quantum Physics 2018-06-13 v3

Abstract

We discuss limits on the noise strength parameter in mass-proportional-coupled wave function collapse models implied by bulk heating effects, and examine the role of the noise power spectrum in comparing experiments of different types. This comparison utilizes a calculation of the rate of heating through phonon excitation implied by a general noise power spectrum λ(ω)\lambda(\omega). We find that in the standard heating formula, the reduction rate λ\lambda is replaced by λeff=23π3/2d3wew2w2λ(ωL(w/rc))\lambda_{\rm eff}=\frac{2}{3 \pi^{3/2}} \int d^3w e^{-\vec w^2} \vec w^2 \lambda(\omega_L(\vec w/r_c)), with ωL(q)\omega_L(\vec q) the longitudinal acoustic phonon frequency as a function of wave number q\vec q, and with rCr_C the noise correlation length. Hence if the noise power spectrum is cut off below ωL(qrc1)\omega_L(|\vec q| \sim r_c^{-1}), the bulk heating rate is sharply reduced, allowing compatibility of current experimental results. We suggest possible new bulk heating experiments that can be performed subject to limits placed by natural heating from radioactivity and cosmic rays. The proposed experiments exploit the vanishing of thermal transport in the low temperature limit.

Keywords

Cite

@article{arxiv.1801.06857,
  title  = {Bulk Heating Effects as Tests for Collapse Models},
  author = {Stephen L. Adler and Andrea Vinante},
  journal= {arXiv preprint arXiv:1801.06857},
  year   = {2018}
}

Comments

Latex, 13 pages. Phys. Rev. A (in press). There is a text overlap with arXiv:1712.01071 and arXiv:1801.00509. Those papers are supplanted by this one and will not be published

R2 v1 2026-06-22T23:51:14.956Z