Understanding space charge effects is central for the development of high-brightness ultrafast electron diffraction and microscopy techniques for imaging material transformation with atomic scale detail at the fs to ps timescales. We present methods and results for direct ultrafast photoelectron beam characterization employing a shadow projection imaging technique to investigate the generation of ultrafast, non-uniform, intense photoelectron pulses in a dc photo-gun geometry. Combined with N-particle simulations and an analytical Gaussian model, we elucidate three essential space-charge-led features: the pulse lengthening following a power-law scaling, the broadening of the initial energy distribution, and the virtual cathode threshold. The impacts of these space charge effects on the performance of the next generation high-brightness ultrafast electron diffraction and imaging systems are evaluated.
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15 February 2012
Research Article|
February 24 2012
Space charge effects in ultrafast electron diffraction and imaging
Zhensheng Tao;
Zhensheng Tao
Physics and Astronomy Department, Michigan State University, East Lansing
, Michigan 48824-2320, USA
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He Zhang;
He Zhang
Physics and Astronomy Department, Michigan State University, East Lansing
, Michigan 48824-2320, USA
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P. M. Duxbury;
P. M. Duxbury
Physics and Astronomy Department, Michigan State University, East Lansing
, Michigan 48824-2320, USA
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Martin Berz;
Martin Berz
Physics and Astronomy Department, Michigan State University, East Lansing
, Michigan 48824-2320, USA
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Chong-Yu Ruan
Chong-Yu Ruan
a)
Physics and Astronomy Department, Michigan State University, East Lansing
, Michigan 48824-2320, USA
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a)
Electronic mail: ruan@pa.msu.edu.
J. Appl. Phys. 111, 044316 (2012)
Article history
Received:
November 14 2011
Citation
Zhensheng Tao, He Zhang, P. M. Duxbury, Martin Berz, Chong-Yu Ruan; Space charge effects in ultrafast electron diffraction and imaging. J. Appl. Phys. 15 February 2012; 111 (4): 044316. https://doi.org/10.1063/1.3685747
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