A new desirable molecular species for stark deceleration

Guang Bin Fu; Lian Zhong Deng; Jian Ping Yin

doi:10.1088/0256-307X/25/3/032

A new desirable molecular species for stark deceleration

Guang Bin Fu
, Lian Zhong Deng
, Jian Ping Yin^*

^*Corresponding author for this work

Institute for Advanced Study in Precision Spectroscopy

East China Normal University

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

7 Scopus citations

Abstract

We demonstrate a new molecular sample (CH radical) for Stark deceleration by Monte Carlo simulation, study the dependences of the decelerating effect on the different phase angles, stage number and decelerating voltages, and obtain some new optimized conditions and parameters. We also calculate the Stark energy shift of different quantum states of CH radical in the Stark decelerator electrostatic field and their populations in a supersonic CH molecular beam. Our study shows that the mean velocity of the supersonic CH molecular beam in the ²∏_1/2 state can be decelerated from 380m/s to 24m/s, and the corresponding translation temperature is lowered from 2.8K to 27mK. It is thus clear that the CH radical is a new and desirable candidate for Stark deceleration.

Original language	English
Pages (from-to)	923-926
Number of pages	4
Journal	Chinese Physics Letters
Volume	25
Issue number	3
DOIs	https://doi.org/10.1088/0256-307X/25/3/032
State	Published - 1 Mar 2008

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title = "A new desirable molecular species for stark deceleration",

abstract = "We demonstrate a new molecular sample (CH radical) for Stark deceleration by Monte Carlo simulation, study the dependences of the decelerating effect on the different phase angles, stage number and decelerating voltages, and obtain some new optimized conditions and parameters. We also calculate the Stark energy shift of different quantum states of CH radical in the Stark decelerator electrostatic field and their populations in a supersonic CH molecular beam. Our study shows that the mean velocity of the supersonic CH molecular beam in the 2∏1/2 state can be decelerated from 380m/s to 24m/s, and the corresponding translation temperature is lowered from 2.8K to 27mK. It is thus clear that the CH radical is a new and desirable candidate for Stark deceleration.",

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T1 - A new desirable molecular species for stark deceleration

AU - Fu, Guang Bin

AU - Deng, Lian Zhong

AU - Yin, Jian Ping

PY - 2008/3/1

Y1 - 2008/3/1

N2 - We demonstrate a new molecular sample (CH radical) for Stark deceleration by Monte Carlo simulation, study the dependences of the decelerating effect on the different phase angles, stage number and decelerating voltages, and obtain some new optimized conditions and parameters. We also calculate the Stark energy shift of different quantum states of CH radical in the Stark decelerator electrostatic field and their populations in a supersonic CH molecular beam. Our study shows that the mean velocity of the supersonic CH molecular beam in the 2∏1/2 state can be decelerated from 380m/s to 24m/s, and the corresponding translation temperature is lowered from 2.8K to 27mK. It is thus clear that the CH radical is a new and desirable candidate for Stark deceleration.

AB - We demonstrate a new molecular sample (CH radical) for Stark deceleration by Monte Carlo simulation, study the dependences of the decelerating effect on the different phase angles, stage number and decelerating voltages, and obtain some new optimized conditions and parameters. We also calculate the Stark energy shift of different quantum states of CH radical in the Stark decelerator electrostatic field and their populations in a supersonic CH molecular beam. Our study shows that the mean velocity of the supersonic CH molecular beam in the 2∏1/2 state can be decelerated from 380m/s to 24m/s, and the corresponding translation temperature is lowered from 2.8K to 27mK. It is thus clear that the CH radical is a new and desirable candidate for Stark deceleration.

UR - https://www.scopus.com/pages/publications/41149149769

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DO - 10.1088/0256-307X/25/3/032

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SN - 0256-307X

VL - 25

SP - 923

EP - 926

JO - Chinese Physics Letters

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ER -

A new desirable molecular species for stark deceleration

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