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Paper detail

Robust and highly-efficient discrimination of chiral molecules through three-mode parallel paths

We propose to discriminate chiral molecules by combining one- and two-photon processes in a closed-loop configuration. The one-photon-coupling intrinsic π-phase difference between two enantiomers leads to their different superposition states, which is then followed by a two-photon process through three-mode parallel paths (3MPPs), enabling the discrimination of enantiomers by inducing their entirely-different population distributions. The 3MPPs are constructed by "chosen paths", a method of shortcuts to adiabaticity (STA), exhibiting a fast two-photon process. As an example, we propose to perform the scheme in 1, 2-propanediol molecules, which shows relatively robust and highly-efficient results under considering the experimental issues concerning unwanted transitions, imperfect initial state, pulse shaping, control errors and the effect of energy relaxations. The present work may provide help for laboratory researchers in a robust separation of chiral molecules.

preprint2019arXivOpen access
Jin-Lei WuYan WangJie SongYan XiaShi-Lei SuYong-Yuan Jiang
quant-ph
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Jin-Lei WuYan WangJie SongYan XiaShi-Lei SuYong-Yuan Jiang

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