The Experts below are selected from a list of 204 Experts worldwide ranked by ideXlab platform
Laisheng Wang - One of the best experts on this subject based on the ideXlab platform.
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Vibrational State selective resonant two photon photoelectron spectroscopy of aus via a spin forbidden excited State
Journal of Physical Chemistry Letters, 2015Co-Authors: Hongtao Liu, Daoling Huang, Yuan Liu, Ling Fung Cheung, Phuong Diem Dau, Chuangang Ning, Laisheng WangAbstract:Vibrational State-selective resonant two-photon photoelectron spectra have been obtained via a triplet intermediate State (3Σ–) of AuS– near its detachment threshold using high-resolution photoelectron imaging of cryogenically cooled AuS– anions. Four Vibrational levels of the 3Σ– excited State are observed to be below the detachment threshold. Resonant two-photon absorptions through these levels yield Vibrational State-selective photoelectron spectra to the 2Σ final State of neutral AuS with broad and drastically different Franck–Condon distributions, reflecting the symmetries of the Vibrational wave functions of the 3Σ– intermediate State. The 3Σ– excited State is spin-forbidden from the 1Σ+ ground State of AuS– and is accessed due to strong relativistic effects. The nature of the 3Σ– excited State is confirmed by angular distributions of the photoelectron images and quantum calculations.
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Vibrational State-Selective Resonant Two-Photon Photoelectron Spectroscopy of AuS − via a Spin-Forbidden Excited State
The journal of physical chemistry letters, 2015Co-Authors: Hongtao Liu, Daoling Huang, Yuan Liu, Ling Fung Cheung, Phuong Diem Dau, Chuangang Ning, Laisheng WangAbstract:Vibrational State-selective resonant two-photon photoelectron spectra have been obtained via a triplet intermediate State (3Σ–) of AuS– near its detachment threshold using high-resolution photoelectron imaging of cryogenically cooled AuS– anions. Four Vibrational levels of the 3Σ– excited State are observed to be below the detachment threshold. Resonant two-photon absorptions through these levels yield Vibrational State-selective photoelectron spectra to the 2Σ final State of neutral AuS with broad and drastically different Franck–Condon distributions, reflecting the symmetries of the Vibrational wave functions of the 3Σ– intermediate State. The 3Σ– excited State is spin-forbidden from the 1Σ+ ground State of AuS– and is accessed due to strong relativistic effects. The nature of the 3Σ– excited State is confirmed by angular distributions of the photoelectron images and quantum calculations.
Hongtao Liu - One of the best experts on this subject based on the ideXlab platform.
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Vibrational State selective resonant two photon photoelectron spectroscopy of aus via a spin forbidden excited State
Journal of Physical Chemistry Letters, 2015Co-Authors: Hongtao Liu, Daoling Huang, Yuan Liu, Ling Fung Cheung, Phuong Diem Dau, Chuangang Ning, Laisheng WangAbstract:Vibrational State-selective resonant two-photon photoelectron spectra have been obtained via a triplet intermediate State (3Σ–) of AuS– near its detachment threshold using high-resolution photoelectron imaging of cryogenically cooled AuS– anions. Four Vibrational levels of the 3Σ– excited State are observed to be below the detachment threshold. Resonant two-photon absorptions through these levels yield Vibrational State-selective photoelectron spectra to the 2Σ final State of neutral AuS with broad and drastically different Franck–Condon distributions, reflecting the symmetries of the Vibrational wave functions of the 3Σ– intermediate State. The 3Σ– excited State is spin-forbidden from the 1Σ+ ground State of AuS– and is accessed due to strong relativistic effects. The nature of the 3Σ– excited State is confirmed by angular distributions of the photoelectron images and quantum calculations.
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Vibrational State-Selective Resonant Two-Photon Photoelectron Spectroscopy of AuS − via a Spin-Forbidden Excited State
The journal of physical chemistry letters, 2015Co-Authors: Hongtao Liu, Daoling Huang, Yuan Liu, Ling Fung Cheung, Phuong Diem Dau, Chuangang Ning, Laisheng WangAbstract:Vibrational State-selective resonant two-photon photoelectron spectra have been obtained via a triplet intermediate State (3Σ–) of AuS– near its detachment threshold using high-resolution photoelectron imaging of cryogenically cooled AuS– anions. Four Vibrational levels of the 3Σ– excited State are observed to be below the detachment threshold. Resonant two-photon absorptions through these levels yield Vibrational State-selective photoelectron spectra to the 2Σ final State of neutral AuS with broad and drastically different Franck–Condon distributions, reflecting the symmetries of the Vibrational wave functions of the 3Σ– intermediate State. The 3Σ– excited State is spin-forbidden from the 1Σ+ ground State of AuS– and is accessed due to strong relativistic effects. The nature of the 3Σ– excited State is confirmed by angular distributions of the photoelectron images and quantum calculations.
Chuangang Ning - One of the best experts on this subject based on the ideXlab platform.
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Vibrational State selective resonant two photon photoelectron spectroscopy of aus via a spin forbidden excited State
Journal of Physical Chemistry Letters, 2015Co-Authors: Hongtao Liu, Daoling Huang, Yuan Liu, Ling Fung Cheung, Phuong Diem Dau, Chuangang Ning, Laisheng WangAbstract:Vibrational State-selective resonant two-photon photoelectron spectra have been obtained via a triplet intermediate State (3Σ–) of AuS– near its detachment threshold using high-resolution photoelectron imaging of cryogenically cooled AuS– anions. Four Vibrational levels of the 3Σ– excited State are observed to be below the detachment threshold. Resonant two-photon absorptions through these levels yield Vibrational State-selective photoelectron spectra to the 2Σ final State of neutral AuS with broad and drastically different Franck–Condon distributions, reflecting the symmetries of the Vibrational wave functions of the 3Σ– intermediate State. The 3Σ– excited State is spin-forbidden from the 1Σ+ ground State of AuS– and is accessed due to strong relativistic effects. The nature of the 3Σ– excited State is confirmed by angular distributions of the photoelectron images and quantum calculations.
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Vibrational State-Selective Resonant Two-Photon Photoelectron Spectroscopy of AuS − via a Spin-Forbidden Excited State
The journal of physical chemistry letters, 2015Co-Authors: Hongtao Liu, Daoling Huang, Yuan Liu, Ling Fung Cheung, Phuong Diem Dau, Chuangang Ning, Laisheng WangAbstract:Vibrational State-selective resonant two-photon photoelectron spectra have been obtained via a triplet intermediate State (3Σ–) of AuS– near its detachment threshold using high-resolution photoelectron imaging of cryogenically cooled AuS– anions. Four Vibrational levels of the 3Σ– excited State are observed to be below the detachment threshold. Resonant two-photon absorptions through these levels yield Vibrational State-selective photoelectron spectra to the 2Σ final State of neutral AuS with broad and drastically different Franck–Condon distributions, reflecting the symmetries of the Vibrational wave functions of the 3Σ– intermediate State. The 3Σ– excited State is spin-forbidden from the 1Σ+ ground State of AuS– and is accessed due to strong relativistic effects. The nature of the 3Σ– excited State is confirmed by angular distributions of the photoelectron images and quantum calculations.
Phuong Diem Dau - One of the best experts on this subject based on the ideXlab platform.
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Vibrational State selective resonant two photon photoelectron spectroscopy of aus via a spin forbidden excited State
Journal of Physical Chemistry Letters, 2015Co-Authors: Hongtao Liu, Daoling Huang, Yuan Liu, Ling Fung Cheung, Phuong Diem Dau, Chuangang Ning, Laisheng WangAbstract:Vibrational State-selective resonant two-photon photoelectron spectra have been obtained via a triplet intermediate State (3Σ–) of AuS– near its detachment threshold using high-resolution photoelectron imaging of cryogenically cooled AuS– anions. Four Vibrational levels of the 3Σ– excited State are observed to be below the detachment threshold. Resonant two-photon absorptions through these levels yield Vibrational State-selective photoelectron spectra to the 2Σ final State of neutral AuS with broad and drastically different Franck–Condon distributions, reflecting the symmetries of the Vibrational wave functions of the 3Σ– intermediate State. The 3Σ– excited State is spin-forbidden from the 1Σ+ ground State of AuS– and is accessed due to strong relativistic effects. The nature of the 3Σ– excited State is confirmed by angular distributions of the photoelectron images and quantum calculations.
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Vibrational State-Selective Resonant Two-Photon Photoelectron Spectroscopy of AuS − via a Spin-Forbidden Excited State
The journal of physical chemistry letters, 2015Co-Authors: Hongtao Liu, Daoling Huang, Yuan Liu, Ling Fung Cheung, Phuong Diem Dau, Chuangang Ning, Laisheng WangAbstract:Vibrational State-selective resonant two-photon photoelectron spectra have been obtained via a triplet intermediate State (3Σ–) of AuS– near its detachment threshold using high-resolution photoelectron imaging of cryogenically cooled AuS– anions. Four Vibrational levels of the 3Σ– excited State are observed to be below the detachment threshold. Resonant two-photon absorptions through these levels yield Vibrational State-selective photoelectron spectra to the 2Σ final State of neutral AuS with broad and drastically different Franck–Condon distributions, reflecting the symmetries of the Vibrational wave functions of the 3Σ– intermediate State. The 3Σ– excited State is spin-forbidden from the 1Σ+ ground State of AuS– and is accessed due to strong relativistic effects. The nature of the 3Σ– excited State is confirmed by angular distributions of the photoelectron images and quantum calculations.
Ling Fung Cheung - One of the best experts on this subject based on the ideXlab platform.
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Vibrational State selective resonant two photon photoelectron spectroscopy of aus via a spin forbidden excited State
Journal of Physical Chemistry Letters, 2015Co-Authors: Hongtao Liu, Daoling Huang, Yuan Liu, Ling Fung Cheung, Phuong Diem Dau, Chuangang Ning, Laisheng WangAbstract:Vibrational State-selective resonant two-photon photoelectron spectra have been obtained via a triplet intermediate State (3Σ–) of AuS– near its detachment threshold using high-resolution photoelectron imaging of cryogenically cooled AuS– anions. Four Vibrational levels of the 3Σ– excited State are observed to be below the detachment threshold. Resonant two-photon absorptions through these levels yield Vibrational State-selective photoelectron spectra to the 2Σ final State of neutral AuS with broad and drastically different Franck–Condon distributions, reflecting the symmetries of the Vibrational wave functions of the 3Σ– intermediate State. The 3Σ– excited State is spin-forbidden from the 1Σ+ ground State of AuS– and is accessed due to strong relativistic effects. The nature of the 3Σ– excited State is confirmed by angular distributions of the photoelectron images and quantum calculations.
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Vibrational State-Selective Resonant Two-Photon Photoelectron Spectroscopy of AuS − via a Spin-Forbidden Excited State
The journal of physical chemistry letters, 2015Co-Authors: Hongtao Liu, Daoling Huang, Yuan Liu, Ling Fung Cheung, Phuong Diem Dau, Chuangang Ning, Laisheng WangAbstract:Vibrational State-selective resonant two-photon photoelectron spectra have been obtained via a triplet intermediate State (3Σ–) of AuS– near its detachment threshold using high-resolution photoelectron imaging of cryogenically cooled AuS– anions. Four Vibrational levels of the 3Σ– excited State are observed to be below the detachment threshold. Resonant two-photon absorptions through these levels yield Vibrational State-selective photoelectron spectra to the 2Σ final State of neutral AuS with broad and drastically different Franck–Condon distributions, reflecting the symmetries of the Vibrational wave functions of the 3Σ– intermediate State. The 3Σ– excited State is spin-forbidden from the 1Σ+ ground State of AuS– and is accessed due to strong relativistic effects. The nature of the 3Σ– excited State is confirmed by angular distributions of the photoelectron images and quantum calculations.
