Enhancing exotic quantum fluctuations in a strongly entangled cavity BEC
system
- URL: http://arxiv.org/abs/2311.16687v1
- Date: Tue, 28 Nov 2023 10:58:14 GMT
- Title: Enhancing exotic quantum fluctuations in a strongly entangled cavity BEC
system
- Authors: Leon Mixa, Hans Ke{\ss}ler, Andreas Hemmerich, and Michael Thorwart
- Abstract summary: We show that the strong coupling of a quantum light field and correlated quantum matter induces exotic quantum fluctuations in the matter sector.
We derive the dissipative Landau and Beliaev processes from the microscopic Hamiltonian using imaginary time path integrals.
- Score: 0.0
- License: http://creativecommons.org/licenses/by/4.0/
- Abstract: We show that the strong coupling of a quantum light field and correlated
quantum matter induces exotic quantum fluctuations in the matter sector. We
determine their spectral characteristics and reveal the impact of the atomic
s-wave scattering. In particular, we derive the dissipative Landau and Beliaev
processes from the microscopic Hamiltonian using imaginary time path integrals.
By this, their strongly sub-Ohmic nature is revealed analytically. A
competition between damping and antidamping channels is uncovered. Their
intricate influence on physical observables is quantified analytically and the
Stokes shift of the critical point is determined. This illustrates the
tunability of the quantum matter fluctuations by exploiting strong light-matter
coupling.
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