Radiative force from optical cycling on magnesium monofluoride

Ruoxi Gu; Kang Yan; Di Wu; Jin Wei; Yong Xia; Jianping Yin

doi:10.1103/PhysRevA.105.042806

Radiative force from optical cycling on magnesium monofluoride

Ruoxi Gu
, Kang Yan
, Di Wu
, Jin Wei
, Yong Xia
, Jianping Yin

Research output: Contribution to journal › Article › peer-review

11 Scopus citations

Abstract

We demonstrate radiative force deflection by using an optical cycling of the X2?1/2+-A2?1/2 electronic transition in diatomic molecule magnesium monofluoride (MgF). For the (0,0) and (0,1) bands of the electronic transition, the Franck-Condon factors-obtained by the dispersed laser-induced fluorescence spectrum-are f00=0.972 and f01=0.028, which suggests that the vibrational branching is quasiclosed. Furthermore, the dark Zeeman sublevels are destabilized by applying an external magnetic field. The cycling fluorescence is clearly observed to reveal that the molecular beam is deflected by 4.9 mm via scattering ~200 photons per molecule. This work is encouraging toward laser cooling and magneto-optical trapping of MgF molecules.

Original language	English
Article number	042806
Journal	Physical Review A
Volume	105
Issue number	4
DOIs	https://doi.org/10.1103/PhysRevA.105.042806
State	Published - Apr 2022
Externally published	Yes

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10.1103/PhysRevA.105.042806

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title = "Radiative force from optical cycling on magnesium monofluoride",

abstract = "We demonstrate radiative force deflection by using an optical cycling of the X2?1/2+-A2?1/2 electronic transition in diatomic molecule magnesium monofluoride (MgF). For the (0,0) and (0,1) bands of the electronic transition, the Franck-Condon factors-obtained by the dispersed laser-induced fluorescence spectrum-are f00=0.972 and f01=0.028, which suggests that the vibrational branching is quasiclosed. Furthermore, the dark Zeeman sublevels are destabilized by applying an external magnetic field. The cycling fluorescence is clearly observed to reveal that the molecular beam is deflected by 4.9 mm via scattering \textasciitilde{}200 photons per molecule. This work is encouraging toward laser cooling and magneto-optical trapping of MgF molecules.",

author = "Ruoxi Gu and Kang Yan and Di Wu and Jin Wei and Yong Xia and Jianping Yin",

note = "Publisher Copyright: {\textcopyright} 2022 American Physical Society.",

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doi = "10.1103/PhysRevA.105.042806",

language = "英语",

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publisher = "American Physical Society",

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TY - JOUR

T1 - Radiative force from optical cycling on magnesium monofluoride

AU - Gu, Ruoxi

AU - Yan, Kang

AU - Wu, Di

AU - Wei, Jin

AU - Xia, Yong

AU - Yin, Jianping

PY - 2022/4

Y1 - 2022/4

N2 - We demonstrate radiative force deflection by using an optical cycling of the X2?1/2+-A2?1/2 electronic transition in diatomic molecule magnesium monofluoride (MgF). For the (0,0) and (0,1) bands of the electronic transition, the Franck-Condon factors-obtained by the dispersed laser-induced fluorescence spectrum-are f00=0.972 and f01=0.028, which suggests that the vibrational branching is quasiclosed. Furthermore, the dark Zeeman sublevels are destabilized by applying an external magnetic field. The cycling fluorescence is clearly observed to reveal that the molecular beam is deflected by 4.9 mm via scattering ~200 photons per molecule. This work is encouraging toward laser cooling and magneto-optical trapping of MgF molecules.

AB - We demonstrate radiative force deflection by using an optical cycling of the X2?1/2+-A2?1/2 electronic transition in diatomic molecule magnesium monofluoride (MgF). For the (0,0) and (0,1) bands of the electronic transition, the Franck-Condon factors-obtained by the dispersed laser-induced fluorescence spectrum-are f00=0.972 and f01=0.028, which suggests that the vibrational branching is quasiclosed. Furthermore, the dark Zeeman sublevels are destabilized by applying an external magnetic field. The cycling fluorescence is clearly observed to reveal that the molecular beam is deflected by 4.9 mm via scattering ~200 photons per molecule. This work is encouraging toward laser cooling and magneto-optical trapping of MgF molecules.

UR - https://www.scopus.com/pages/publications/85129002160

U2 - 10.1103/PhysRevA.105.042806

DO - 10.1103/PhysRevA.105.042806

M3 - 文章

AN - SCOPUS:85129002160

SN - 2469-9926

VL - 105

JO - Physical Review A

JF - Physical Review A

IS - 4

M1 - 042806

ER -

Radiative force from optical cycling on magnesium monofluoride

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