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Development of an electron momentum spectrometer for time-resolved experiments employing nanosecond pulsed electron beam

The low count rate of (e, 2e) electron momentum spectroscopy (EMS) has long been a major limitation of its application to the investigation of molecular dynamics. Here we report a new EMS apparatus developed for time-resolved experiments in the nanosecond time scale, in which a double toroidal energ...

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Bibliographic Details
Published in:Review of scientific instruments 2018-03, Vol.89 (3), p.033101-033101
Main Authors: Tang, Yaguo, Shan, Xu, Liu, Zhaohui, Niu, Shanshan, Wang, Enliang, Chen, Xiangjun
Format: Article
Language:English
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Summary:The low count rate of (e, 2e) electron momentum spectroscopy (EMS) has long been a major limitation of its application to the investigation of molecular dynamics. Here we report a new EMS apparatus developed for time-resolved experiments in the nanosecond time scale, in which a double toroidal energy analyzer is utilized to improve the sensitivity of the spectrometer and a nanosecond pulsed electron gun with a repetition rate of 10 kHz is used to obtain an average beam current up to nA. Meanwhile, a picosecond ultraviolet laser with a repetition rate of 5 kHz is introduced to pump the sample target. The time zero is determined by photoionizing the target using a pump laser and monitoring the change of the electron beam current with time delay between the laser pulse and electron pulse, which is influenced by the plasma induced by the photoionization. The performance of the spectrometer is demonstrated by the EMS measurement on argon using a pulsed electron beam, illustrating the potential abilities of the apparatus for investigating the molecular dynamics in excited states when employing the pump-probe scheme.
ISSN:0034-6748
1089-7623
DOI:10.1063/1.5018665