Temporal lenses for attosecond and femtosecond electron pulses

Here, we describe the "temporal lens" concept that can be used for the focus and magnification of ultrashort electron packets in the time domain. The temporal lenses are created by appropriately synthesizing optical pulses that interact with electrons through the ponderomotive force. With...

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Veröffentlicht in:	Proceedings of the National Academy of Sciences - PNAS 2009-06, Vol.106 (26), p.10558-10563
Hauptverfasser:	Hilbert, Shawn A, Uiterwaal, Cornelis, Barwick, Brett, Batelaan, Herman, Zewail, Ahmed H
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Sprache:	eng
Schlagworte:	Algorithms Diffraction Electron energy Electrons Image compression Imaging Laser beams Lasers Light Magnification Microscopy Microscopy - instrumentation Microscopy - methods Microscopy, Electron - instrumentation Microscopy, Electron - methods Models, Theoretical Optical focus Optical lenses Optical Phenomena Optics Physical Sciences Scattering, Radiation Standing waves Time Factors
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container_end_page	10563
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container_title	Proceedings of the National Academy of Sciences - PNAS
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creator	Hilbert, Shawn A Uiterwaal, Cornelis Barwick, Brett Batelaan, Herman Zewail, Ahmed H
description	Here, we describe the "temporal lens" concept that can be used for the focus and magnification of ultrashort electron packets in the time domain. The temporal lenses are created by appropriately synthesizing optical pulses that interact with electrons through the ponderomotive force. With such an arrangement, a temporal lens equation with a form identical to that of conventional light optics is derived. The analog of ray diagrams, but for electrons, are constructed to help the visualization of the process of compressing electron packets. It is shown that such temporal lenses not only compensate for electron pulse broadening due to velocity dispersion but also allow compression of the packets to durations much shorter than their initial widths. With these capabilities, ultrafast electron diffraction and microscopy can be extended to new domains,and, just as importantly, electron pulses can be delivered directly on an ultrafast techniques target specimen.
doi_str_mv	10.1073/pnas.0904912106
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subjects	Algorithms Diffraction Electron energy Electrons Image compression Imaging Laser beams Lasers Light Magnification Microscopy Microscopy - instrumentation Microscopy - methods Microscopy, Electron - instrumentation Microscopy, Electron - methods Models, Theoretical Optical focus Optical lenses Optical Phenomena Optics Physical Sciences Scattering, Radiation Standing waves Time Factors
title	Temporal lenses for attosecond and femtosecond electron pulses
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