2014
DOI: 10.1103/physreva.89.023406
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Detuning-induced stimulated Raman adiabatic passage in atoms with hyperfine structure

Abstract: We theoretically study the generation of coherence in generalized two-level atoms with hyperfine structure by utilizing the detuning-induced stimulated Raman adiabatic passage (D-STIRAP). As expected, the degree of attainable coherence between the ground and excited states cannot be as large as that for the ideal two-level atoms without hyperfine structure. However, we find that the substantial degree of coherence can still be produced with small modulations, and the modulation period is essentially determined… Show more

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Cited by 5 publications
(1 citation statement)
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“…[23] Unfortunately, only (two-photon) resonant-STIRAP (or R-STIRAP) is favored by previous studies owing to the existence of an absolute dark eigenstate which is totally isolated from the influences of other bright eigenstates. [24] In contrast, detuned-STIRAP (or D-STIRAP) enabled by other nearby energy levels is usually ignored [25,26] because of the coexisting R-STIRAP making its impact less important. The achievement of the STIRAP-induced quantum interference effect unexpectedly reveals the virtue of D-STIRAP even if the resonant transfer is active, which can provide an accurate measurement for the tiny energy difference between hyperfine ground states.…”
Section: Introductionmentioning
confidence: 99%
“…[23] Unfortunately, only (two-photon) resonant-STIRAP (or R-STIRAP) is favored by previous studies owing to the existence of an absolute dark eigenstate which is totally isolated from the influences of other bright eigenstates. [24] In contrast, detuned-STIRAP (or D-STIRAP) enabled by other nearby energy levels is usually ignored [25,26] because of the coexisting R-STIRAP making its impact less important. The achievement of the STIRAP-induced quantum interference effect unexpectedly reveals the virtue of D-STIRAP even if the resonant transfer is active, which can provide an accurate measurement for the tiny energy difference between hyperfine ground states.…”
Section: Introductionmentioning
confidence: 99%