Enantiodetection via the 2D spectroscopy: extending the methodology to general experimental conditions

• URL: http://arxiv.org/abs/2305.02916v1
• Date: Thu, 4 May 2023 15:20:39 GMT
• Title: Enantiodetection via the 2D spectroscopy: extending the methodology to general experimental conditions
• Authors: Mao-Rui Cai, Chong Ye, Yong Li, and Hui Dong
• Abstract summary: We extend the 2D spectroscopy method to more general experimental conditions, with three-photon resonance. Our method remains effective on enantiodetection with the help of experimental techniques.
• Score: 5.097874180012541
• License: http://creativecommons.org/licenses/by/4.0/
• Abstract: Developing effective methods to measure the enantiomeric excess of the chiral mixture is one of the major topics in chiral molecular researches, yet remains challenging. Enantiodetection method via two-dimensional (2D) spectroscopy based on a four level model, containing a cyclic three-level system (CTLS), of chiral molecules was recently proposed and demonstrated, yet with a strict condition of the one-photon resonance (where three driving fields are exactly resonantly coupled to the three electric-dipole transitions, respectively) in the CTLS and narrowband probe pulse assumption. Here, we extend the 2D spectroscopy method to more general experimental conditions, with three-photon resonance (where the sum of the two smaller frequencies among the three driving fields equals to the third one) and broadband probe pulse. Our method remains effective on enantiodetection with the help of experimental techniques, such as the chop detection method, which is used to eliminate the influence of the other redundant levels existing in the real system of chiral molecules. Under these more general conditions, the enantiomeric excess of the chiral mixture is estimated by taking an easily available standard sample (usually the racemic mixture) as the reference.

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