dorsal/arxiv
View SchemaPhotoassociation adiabatic passage of ultracold Rb atoms to form ultracold Rb_2 molecules
| Authors | Evgeny A. Shapiro, Moshe Shapiro, Avi Pe'er, Jun Ye |
|---|---|
| Categories | |
| ArXiv ID | quant-ph/0605252 |
| URL | https://arxiv.org/abs/quant-ph/0605252 |
| DOI | 10.1103/PhysRevA.75.013405 |
| Journal | Phys. Rev. A 75, 013405 (2007) |
Abstract
We theoretically explore photoassociation by Adiabatic Passage of two colliding cold ^{85}Rb atoms in an atomic trap to form an ultracold Rb_2 molecule. We consider the incoherent thermal nature of the scattering process in a trap and show that coherent manipulations of the atomic ensemble, such as adiabatic passage, are feasible if performed within the coherence time window dictated by the temperature, which is relatively long for cold atoms. We show that a sequence of ~2*10^7 pulses of moderate intensities, each lasting ~750 ns, can photoassociate a large fraction of the atomic ensemble at temperature of 100 microkelvin and density of 10^{11} atoms/cm^3. Use of multiple pulse sequences makes it possible to populate the ground vibrational state. Employing spontaneous decay from a selected excited state, one can accumulate the molecules in a narrow distribution of vibrational states in the ground electronic potential. Alternatively, by removing the created molecules from the beam path between pulse sets, one can create a low-density ensemble of molecules in their ground ro-vibrational state.
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"abstract": "We theoretically explore photoassociation by Adiabatic Passage of two\ncolliding cold ^{85}Rb atoms in an atomic trap to form an ultracold Rb_2\nmolecule. We consider the incoherent thermal nature of the scattering process\nin a trap and show that coherent manipulations of the atomic ensemble, such as\nadiabatic passage, are feasible if performed within the coherence time window\ndictated by the temperature, which is relatively long for cold atoms. We show\nthat a sequence of ~2*10^7 pulses of moderate intensities, each lasting ~750\nns, can photoassociate a large fraction of the atomic ensemble at temperature\nof 100 microkelvin and density of 10^{11} atoms/cm^3. Use of multiple pulse\nsequences makes it possible to populate the ground vibrational state. Employing\nspontaneous decay from a selected excited state, one can accumulate the\nmolecules in a narrow distribution of vibrational states in the ground\nelectronic potential. Alternatively, by removing the created molecules from the\nbeam path between pulse sets, one can create a low-density ensemble of\nmolecules in their ground ro-vibrational state.",
"arxiv_id": "quant-ph/0605252",
"authors": [
"Evgeny A. Shapiro",
"Moshe Shapiro",
"Avi Pe\u0027er",
"Jun Ye"
],
"categories": [
"quant-ph"
],
"doi": "10.1103/PhysRevA.75.013405",
"journal_ref": "Phys. Rev. A 75, 013405 (2007)",
"title": "Photoassociation adiabatic passage of ultracold Rb atoms to form ultracold Rb_2 molecules",
"url": "https://arxiv.org/abs/quant-ph/0605252"
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