A magneto-optical trap is used to locate repumping transitions in SrOH, increasing trapped molecule number by 4.5 times and measuring the energy difference between two vibrational states relevant to ultralight dark matter searches.
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physics.atom-ph 2years
2025 2verdicts
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Numerical simulations demonstrate a viable scheme for slowing, capturing, and sub-Doppler cooling tin atoms in a MOT using an accessible Type-II transition.
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High-sensitivity molecular spectroscopy of SrOH using magneto-optical trapping
A magneto-optical trap is used to locate repumping transitions in SrOH, increasing trapped molecule number by 4.5 times and measuring the energy difference between two vibrational states relevant to ultralight dark matter searches.
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Simulated Laser Cooling and Magneto-Optical Trapping of Group IV Atoms
Numerical simulations demonstrate a viable scheme for slowing, capturing, and sub-Doppler cooling tin atoms in a MOT using an accessible Type-II transition.