The photodissociation dynamics of Br − C bond cleavage for BrCN in the wavelength region from 225 nm to 260 nm has been studied by our homebuilt time-slice velocity-map imaging setup. The images for both of the ground state Br(2P3/2) and spin-orbit excited Br*(2P1/2) channels are obtained at several photodissociation wavelengths. From the analysis of the translational energy release spectra, the detailed vibrational and rotational distributions of CN products have been measured for both of the Br and Br* channels. It is found that the internal excitation of the CN products for the Br* channel is colder than that for the Br channel. The most populated vibrational levels of the CN products are v=0 and 1 for the Br and Br* channels, respectively. For the Br channel, the photodissociation dynamics at longer wavelengths are found to be different from those at shorter wavelengths, as revealed by their dramatically different vibrational and rotational excitations of the CN products.
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February 2022
Research Article|
February 01 2022
Systematical study on photodissociation dynamics of BrCN from 225 nm to 260 nm†
Tonghui Yin;
Tonghui Yin
a
Beijing National Laboratory for Molecular Sciences; Institute of Chemistry, Chinese Academy of Sciences
, Beijing 100190, China
b
University of Chinese Academy of Sciences
, Beijing 100049, China
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Liying Ma;
Liying Ma
a
Beijing National Laboratory for Molecular Sciences; Institute of Chemistry, Chinese Academy of Sciences
, Beijing 100190, China
b
University of Chinese Academy of Sciences
, Beijing 100049, China
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Hong Gao;
Hong Gao
*
a
Beijing National Laboratory for Molecular Sciences; Institute of Chemistry, Chinese Academy of Sciences
, Beijing 100190, China
b
University of Chinese Academy of Sciences
, Beijing 100049, China
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†
Part of Special Issue “In Memory of Prof. Nanquan Lou on the occasion of his 100th anniversary”.
Chin. J. Chem. Phys. 35, 86–94 (2022)
Article history
Received:
November 16 2021
Accepted:
January 19 2022
Citation
Tonghui Yin, Liying Ma, Hong Gao, Min Cheng; Systematical study on photodissociation dynamics of BrCN from 225 nm to 260 nm. Chin. J. Chem. Phys. 1 February 2022; 35 (1): 86–94. https://doi.org/10.1063/1674-0068/cjcp2111235
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