Recoil excitation of vibrational structure in the carbon 1s photoelectron spectrum of CF4

The carbon 1s photoelectron spectrum of CF4 measured at photon energies from 330 to 1500 eV shows significant contributions from nonsymmetric vibrational modes. These increase linearly as the photon energy increases. The excitation of these modes, which is not predicted in the usual Franck-Condon po...

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Published in:The Journal of chemical physics 2008-04, Vol.128 (14), p.144311-144311
Main Authors: Thomas, T Darrah, Kukk, Edwin, Sankari, Rami, Fukuzawa, Hironobu, Prümper, Georg, Ueda, Kiyoshi, Püttner, Ralph, Harries, James, Tamenori, Yusuke, Tanaka, Takahiro, Hoshino, Masamitsu, Tanaka, Hiroshi
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cited_by cdi_FETCH-LOGICAL-c279t-c9552dc94e5ed07930aac09c592b1188191feb46fdfa1b06e0e4a3b242ecc5b03
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container_end_page 144311
container_issue 14
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container_title The Journal of chemical physics
container_volume 128
creator Thomas, T Darrah
Kukk, Edwin
Sankari, Rami
Fukuzawa, Hironobu
Prümper, Georg
Ueda, Kiyoshi
Püttner, Ralph
Harries, James
Tamenori, Yusuke
Tanaka, Takahiro
Hoshino, Masamitsu
Tanaka, Hiroshi
description The carbon 1s photoelectron spectrum of CF4 measured at photon energies from 330 to 1500 eV shows significant contributions from nonsymmetric vibrational modes. These increase linearly as the photon energy increases. The excitation of these modes, which is not predicted in the usual Franck-Condon point of view, arises from the recoil momentum imparted to the carbon atom in the ionization process. A theory is presented for quantitative prediction of the recoil effect; the predictions of this theory are in agreement to the measurements. The experiments also yield the vibrational frequencies of the symmetric and asymmetric stretching modes in core-ionized CF4, the change in CF bond length upon ionization, -0.61 pm, and the Lorentzian linewidth of the carbon 1s hole, 67 meV.
doi_str_mv 10.1063/1.2897756
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title Recoil excitation of vibrational structure in the carbon 1s photoelectron spectrum of CF4
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