Involvement of a low-lying Rydberg state in the ultrafast relaxation dynamics of ethylene

Elio G. Champenois; Niranjan H. Shivaram; Travis W. Wright; Chan Shan Yang; Ali Belkacem; James P. Cryan

doi:10.1063/1.4939220

Involvement of a low-lying Rydberg state in the ultrafast relaxation dynamics of ethylene

Elio G. Champenois
, Niranjan H. Shivaram
, Travis W. Wright
, Chan Shan Yang
, Ali Belkacem
, James P. Cryan

研究成果: 雜誌貢獻 › 期刊論文 › 同行評審

35 引文斯高帕斯（Scopus）

摘要

We present a measurement of the time-resolved photoelectron kinetic energy spectrum of ethylene using 156 nm and 260 nm laser pulses. The 156 nm pulse first excites ethylene to the ¹B_1u (ππ∗) electronic state where 260 nm light photoionizes the system to probe the relaxation dynamics with sub-30 fs resolution. Recent ab initio calculations by Mori et al. [J. Phys. Chem. A 116, 2808-2818 (2012)] have predicted an ultrafast population transfer from the initially excited state to a low-lying Rydberg state during the relaxation of photoexcited ethylene. The measured photoelectron kinetic energy spectrum reveals wave packet motion on the valence state and shows indications that the low-lying π3s Rydberg state is indeed transiently populated via internal conversion following excitation to the ππ∗ state, supporting the theoretical predictions.

原文	英語
文章編號	014303
期刊	Journal of Chemical Physics
卷	144
發行號	1
DOIs	https://doi.org/10.1063/1.4939220
出版狀態	已發佈 - 2016 1月 7
對外發佈	是

ASJC Scopus subject areas

一般物理與天文學
物理與理論化學

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10.1063/1.4939220

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title = "Involvement of a low-lying Rydberg state in the ultrafast relaxation dynamics of ethylene",

abstract = "We present a measurement of the time-resolved photoelectron kinetic energy spectrum of ethylene using 156 nm and 260 nm laser pulses. The 156 nm pulse first excites ethylene to the 1B1u (ππ∗) electronic state where 260 nm light photoionizes the system to probe the relaxation dynamics with sub-30 fs resolution. Recent ab initio calculations by Mori et al. [J. Phys. Chem. A 116, 2808-2818 (2012)] have predicted an ultrafast population transfer from the initially excited state to a low-lying Rydberg state during the relaxation of photoexcited ethylene. The measured photoelectron kinetic energy spectrum reveals wave packet motion on the valence state and shows indications that the low-lying π3s Rydberg state is indeed transiently populated via internal conversion following excitation to the ππ∗ state, supporting the theoretical predictions.",

author = "Champenois, \{Elio G.\} and Shivaram, \{Niranjan H.\} and Wright, \{Travis W.\} and Yang, \{Chan Shan\} and Ali Belkacem and Cryan, \{James P.\}",

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AU - Champenois, Elio G.

AU - Shivaram, Niranjan H.

AU - Wright, Travis W.

AU - Yang, Chan Shan

AU - Belkacem, Ali

AU - Cryan, James P.

PY - 2016/1/7

Y1 - 2016/1/7

N2 - We present a measurement of the time-resolved photoelectron kinetic energy spectrum of ethylene using 156 nm and 260 nm laser pulses. The 156 nm pulse first excites ethylene to the 1B1u (ππ∗) electronic state where 260 nm light photoionizes the system to probe the relaxation dynamics with sub-30 fs resolution. Recent ab initio calculations by Mori et al. [J. Phys. Chem. A 116, 2808-2818 (2012)] have predicted an ultrafast population transfer from the initially excited state to a low-lying Rydberg state during the relaxation of photoexcited ethylene. The measured photoelectron kinetic energy spectrum reveals wave packet motion on the valence state and shows indications that the low-lying π3s Rydberg state is indeed transiently populated via internal conversion following excitation to the ππ∗ state, supporting the theoretical predictions.

AB - We present a measurement of the time-resolved photoelectron kinetic energy spectrum of ethylene using 156 nm and 260 nm laser pulses. The 156 nm pulse first excites ethylene to the 1B1u (ππ∗) electronic state where 260 nm light photoionizes the system to probe the relaxation dynamics with sub-30 fs resolution. Recent ab initio calculations by Mori et al. [J. Phys. Chem. A 116, 2808-2818 (2012)] have predicted an ultrafast population transfer from the initially excited state to a low-lying Rydberg state during the relaxation of photoexcited ethylene. The measured photoelectron kinetic energy spectrum reveals wave packet motion on the valence state and shows indications that the low-lying π3s Rydberg state is indeed transiently populated via internal conversion following excitation to the ππ∗ state, supporting the theoretical predictions.

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Involvement of a low-lying Rydberg state in the ultrafast relaxation dynamics of ethylene

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