dorsal/arxiv
View SchemaCooling many particles to very low temperatures
| Authors | Almut Beige, Peter L. Knight, Giuseppe Vitiello |
|---|---|
| Categories | |
| ArXiv ID | quant-ph/0412100 |
| URL | https://arxiv.org/abs/quant-ph/0412100 |
| Journal | Brazilian Journal of Physics 35, 403 (2005). |
Abstract
In a recent paper [Beige, Knight, and Vitiello, quant-ph/0404160], we showed that a large number N of particles can be cooled very efficiently using a bichromatic interaction. The particles should be excited by red-detuned laser fields while coupling to the quantized field mode inside a resonant and leaky optical cavity. When the coupling constants are for all particles the same, a collective behavior can be generated and the cooling rate can be as large as square root of N times the single-particle coupling constants. Here we study the algebraic structure of the dynamics and the origin of the collective cooling process in more detail.
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"abstract": "In a recent paper [Beige, Knight, and Vitiello, quant-ph/0404160], we showed\nthat a large number N of particles can be cooled very efficiently using a\nbichromatic interaction. The particles should be excited by red-detuned laser\nfields while coupling to the quantized field mode inside a resonant and leaky\noptical cavity. When the coupling constants are for all particles the same, a\ncollective behavior can be generated and the cooling rate can be as large as\nsquare root of N times the single-particle coupling constants. Here we study\nthe algebraic structure of the dynamics and the origin of the collective\ncooling process in more detail.",
"arxiv_id": "quant-ph/0412100",
"authors": [
"Almut Beige",
"Peter L. Knight",
"Giuseppe Vitiello"
],
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"quant-ph"
],
"journal_ref": "Brazilian Journal of Physics 35, 403 (2005).",
"title": "Cooling many particles to very low temperatures",
"url": "https://arxiv.org/abs/quant-ph/0412100"
},
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