Casimir Forces and Quantum Friction from Ginzburg Radiation in Atomic Bose-Einstein Condensates

Year: 2017

Authors: Marino J., Recati A., Carusotto I.

Autors Affiliation: Institute of Theoretical Physics, TU Dresden, D-01062 Dresden, Germany; INO-CNR BEC Center and Dipartimento di Fisica, Universita` di Trento, 38123 Povo, Italy

Abstract: We theoretically propose an experimentally viable scheme to use an impurity atom in an atomic Bose-Einstein condensate, in order to realize condensed-matter analogs of quantum vacuum effects. In a suitable atomic level configuration, the collisional interaction between the impurity atom and the density fluctuations in the condensate can be tailored to closely reproduce the electric-dipole coupling of quantum electrodynamics. By virtue of this analogy, we recover and extend the paradigm of electromagnetic vacuum forces to the domain of cold atoms, showing in particular the emergence, at supersonic atomic speeds, of a novel power-law scaling of the Casimir force felt by the atomic impurity, as well as the occurrence of a quantum frictional force, accompanied by the Ginzburg emis- sion of Bogoliubov quanta. Observable consequences of these quantum vacuum effects in realistic spectroscopic experiments are discussed.


Volume: 118 (4)      Pages from: 045301-1  to: 045301-6

More Information: We acknowledge fruitful discussions with V. M. Agranovich, D. Dalvit, C. Henkel, F. Intravaia, R. Passante, and L. Rizzuto. J. M. and A. R. acknowledge support from the Alexander von Humboldt Foundation. This work has been supported by the ERC through the QGBE Grant (I. C. and A. R.); by the EU-FET Proactive Grant AQuS, Project No. 640800 (I. C.); and by the Autonomous Province of Trento (I. C. and A. R.), partially through the project “On silicon chip quantum optics for quantum computing and secure communications” (“SiQuro”).
KeyWords: Cold Gases; Ginzburg Radiation; Dissipative Casimir effect
DOI: 10.1103/PhysRevLett.118.045301

Citations: 35
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