Mirror-mediated cooling : a paradigm for particle cooling via the retarded dipole force

Please use this identifier to cite or link to this item: https://www.um.edu.mt/library/oar/handle/123456789/27412

Title:	Mirror-mediated cooling : a paradigm for particle cooling via the retarded dipole force
Authors:	Freegarde, Tim Bateman, James Xuereb, Andre Horak, Peter
Keywords:	Quantum theory Laser cooling Plasmons (Physics) Atoms -- Cooling
Issue Date:	2012
Publisher:	Cornell University
Citation:	Freegarde, T., Bateman, J., Xuereb, A., & Horak, P. (2012). Mirror-mediated cooling: a paradigm for particle cooling via the retarded dipole force. In K.W. Madison, K. Bongs, L.D. Carr, A.M. Rey, & H.Zai (Eds.), Annual Review of Cold Atoms and Molecules: Volume 1 (pp. 351-376), Retrieved from arXiv preprint https://arxiv.org/abs/0904.3059v2.
Abstract:	Cooling forces result from the retarded dipole interaction between an illuminated particle and its reflection. For a one-dimensional example, we find cooling times of milliseconds and limiting temperatures in the millikelvin range. The force, which may be considered the prototype for cavity-mediated cooling, may be enhanced by plasmon and geometric resonances at the mirror.
URI:	https://www.um.edu.mt/library/oar//handle/123456789/27412
Appears in Collections:	Scholarly Works - FacSciPhy

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