Renjun Pang scite author profile

Alkaline-earth-metal monohydrides MH (M = Be, Mg, Ca, Sr, Ba) have long been regarded as promising candidates toward laser cooling and trapping; however, their rich internal level structures that are amenable to magneto-optical trapping have not been completely explored. Here, we first systematically evaluated Franck−Condon factors of these alkaline-earth-metal monohydrides in the A 2 Π 1/2 ← X 2 Σ + transition, exploiting three respective methods (the Morse potential, the closed-form approximation, and the Rydberg−Klein−Rees method). The effective Hamiltonian matrix was introduced for MgH, CaH, SrH, and BaH individually in order to figure out their molecular hyperfine structures of X 2 Σ + , the transition wavelengths in the vacuum, and hyperfine branching ratios of A 2 Π 1/2 (J′ = 1/2,+) ← X 2 Σ + (N = 1,−), followed by possible sideband modulation proposals to address all hyperfine manifolds. Lastly, the Zeeman energy level structures and associated magnetic g factors of the ground state X 2 Σ + (N = 1,−) were also presented. Our theoretical results here not only shed more light on the molecular spectroscopy of alkaline-earth-metal monohydrides toward laser cooling and magneto-optical trapping but also can contribute to research in molecular collisions involving few-atom molecular systems, spectral analysis in astrophysics and astrochemistry, and even precision measurement of fundamental constants such as the quest for nonzero detection of electron's electric dipole moment.

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Rotational Analysis of the 130te2 B1 ← X1 Transition in the Range from 443.2 to 451.4 Nm

Lin¹,

Ma²,

Coker³

et al. 2023

Preprint

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High resolution spectroscopic measurement of 130Te2: Reference lines near 444.4 nm for eEDM experiment using PbF molecules

Lin

Pang

Wang

et al. 2022

Spectrochimica Acta Part A: Molecular and Biomolecular Spectros

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Renjun Pang

Multi-order quantum beating effect of three-photon temporal interference with nondegenerate fluorescence sources

Theoretical Investigation of Spectroscopic Properties of the Alkaline-Earth-Metal Monohydrides toward Laser Cooling and Magneto-Optical Trapping

Rotational Analysis of the 130te2 B1 ← X1 Transition in the Range from 443.2 to 451.4 Nm

High resolution spectroscopic measurement of 130Te2: Reference lines near 444.4 nm for eEDM experiment using PbF molecules

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