dorsal/arxiv
View SchemaMimicking a Squeezed Bath Interaction: Quantum Reservoir Engineering with Atoms
| Authors | N. Lütkenhaus, J. I. Cirac, P. Zoller |
|---|---|
| Categories | |
| ArXiv ID | quant-ph/9706031 |
| URL | https://arxiv.org/abs/quant-ph/9706031 |
| DOI | 10.1103/PhysRevA.57.548 |
| Journal | Phys.Rev. A57 (1998) 548-558 |
Abstract
The interaction of an atomic two-level system and a squeezed vacuum leads to interesting novel effects in atomic dynamics, including line narrowing in resonance fluorescence and absorption spectra, and a suppressed (enhanced) decay of the in-phase and out-of phase component of the atomic polarization. On the experimental side these predictions have so far eluded observation, essentially due to the difficulty of embedding atoms in a 4 pi squeezed vacuum. In this paper we show how to ``engineer'' a squeezed-bath-type interaction for an effective two-level system. In the simplest example, our two-level atom is represented by the two ground levels of an atom with angular momentum J=1/2 -> J=1/2 transition (a four level system) which is driven by (weak) laser fields and coupled to the vacuum reservoir of radiation modes. Interference between the spontaneous emission channels in optical pumping leads to a squeezed bath type coupling, and thus to symmetry breaking of decay on the Bloch sphere. With this system it should be possible to observe the effects predicted in the context of squeezed bath - atom interactions. The laser parameters allow one to choose properties of the squeezed bath interaction, such as the (effective) photon number expectation number N and the squeezing phase phi. We present results of a detailed analytical and numerical study.
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"abstract": "The interaction of an atomic two-level system and a squeezed vacuum leads to\ninteresting novel effects in atomic dynamics, including line narrowing in\nresonance fluorescence and absorption spectra, and a suppressed (enhanced)\ndecay of the in-phase and out-of phase component of the atomic polarization. On\nthe experimental side these predictions have so far eluded observation,\nessentially due to the difficulty of embedding atoms in a 4 pi squeezed vacuum.\nIn this paper we show how to ``engineer\u0027\u0027 a squeezed-bath-type interaction for\nan effective two-level system. In the simplest example, our two-level atom is\nrepresented by the two ground levels of an atom with angular momentum J=1/2 -\u003e\nJ=1/2 transition (a four level system) which is driven by (weak) laser fields\nand coupled to the vacuum reservoir of radiation modes. Interference between\nthe spontaneous emission channels in optical pumping leads to a squeezed bath\ntype coupling, and thus to symmetry breaking of decay on the Bloch sphere. With\nthis system it should be possible to observe the effects predicted in the\ncontext of squeezed bath - atom interactions. The laser parameters allow one to\nchoose properties of the squeezed bath interaction, such as the (effective)\nphoton number expectation number N and the squeezing phase phi. We present\nresults of a detailed analytical and numerical study.",
"arxiv_id": "quant-ph/9706031",
"authors": [
"N. L\u00fctkenhaus",
"J. I. Cirac",
"P. Zoller"
],
"categories": [
"quant-ph"
],
"doi": "10.1103/PhysRevA.57.548",
"journal_ref": "Phys.Rev. A57 (1998) 548-558",
"title": "Mimicking a Squeezed Bath Interaction: Quantum Reservoir Engineering with Atoms",
"url": "https://arxiv.org/abs/quant-ph/9706031"
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