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· 2026 · DOI 10.1103/w9qc-rczf

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Enhanced Loading of a Molecular Magneto-Optical Trap

physics.atom-ph · 2026-05-28 · accept · novelty 6.0

Monte Carlo modeling of a CaF DC MOT identifies capture-velocity improvements and an intrinsic loss mechanism, enabling an experimental trap with 1.5 million molecules (8x prior results).

Capture velocities for direct loading of heavy molecules into conveyor-belt magneto-optical traps

physics.atom-ph · 2026-06-20 · unverdicted · novelty 5.0

Numerical calculations predict nonzero capture velocities for CB-MOT direct loading of BaF-137 and BaH-138, extending the approach beyond the demonstrated BaF-138 case.

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Enhanced Loading of a Molecular Magneto-Optical Trap physics.atom-ph · 2026-05-28 · accept · none · ref 20
Monte Carlo modeling of a CaF DC MOT identifies capture-velocity improvements and an intrinsic loss mechanism, enabling an experimental trap with 1.5 million molecules (8x prior results).
Capture velocities for direct loading of heavy molecules into conveyor-belt magneto-optical traps physics.atom-ph · 2026-06-20 · unverdicted · none · ref 34
Numerical calculations predict nonzero capture velocities for CB-MOT direct loading of BaF-137 and BaH-138, extending the approach beyond the demonstrated BaF-138 case.

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