Efficient pathway to NaCs ground state molecules

Efficient pathway to NaCs ground state molecules

We present a study of two-photon pathways for the transfer of NaCs molecules to their rovibrational ground state. Starting from NaCs Feshbach molecules, we perform bound-bound excited state spectroscopy in the wavelength range from 900 nm to 940 nm, covering more than 30 vibrational states of the c...

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Veröffentlicht in:New journal of physics 2023-05, Vol.25 (5), p.53036
Hauptverfasser: Warner, Claire, Bigagli, Niccolò, Lam, Aden Z, Yuan, Weijun, Zhang, Siwei, Stevenson, Ian, Will, Sebastian
Format: Artikel
Sprache:eng
Schlagworte:
Efficiency
Electron states
Excitation spectra
Ground state
ground state molecules
Lasers
molecular spectroscopy
Optical lattices
Physics
Quantum phenomena
Rotational states
STIRAP
ultracold molecules
Vibrational states
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Zusammenfassung:We present a study of two-photon pathways for the transfer of NaCs molecules to their rovibrational ground state. Starting from NaCs Feshbach molecules, we perform bound-bound excited state spectroscopy in the wavelength range from 900 nm to 940 nm, covering more than 30 vibrational states of the c 3 Σ + , b 3 Π , and B 1 Π electronic states. Analyzing the rotational substructure, we identify the highly mixed c 3 Σ 1 +   | v = 22 ⟩ ∼ b 3 Π 1   | v = 54 ⟩ state as an efficient bridge for stimulated Raman adiabatic passage. We demonstrate transfer into the NaCs ground state with an efficiency of up to 88(4)%. Highly efficient transfer is critical for the realization of many-body quantum phases of strongly dipolar NaCs molecules and high fidelity detection of single molecules, for example, in spin physics experiments in optical lattices and quantum information experiments in optical tweezer arrays.
ISSN:1367-2630
1367-2630
DOI:10.1088/1367-2630/acd411