Terahertz-driven linear electron acceleration

被引:0
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作者
Emilio A. Nanni
Wenqian R. Huang
Kyung-Han Hong
Koustuban Ravi
Arya Fallahi
Gustavo Moriena
R. J. Dwayne Miller
Franz X. Kärtner
机构
[1] Research Laboratory of Electronics,Department of Electrical Engineering and Computer Science
[2] Massachusetts Institute of Technology,Ultrafast Optics and X
[3] Center for Free-Electron Laser Science and The Hamburg Center for Ultrafast Imaging,rays Division
[4] Deutsches Elektronen Synchrotron,Department of Chemistry and Physics
[5] University of Toronto,Department of Physics
[6] Max Planck Institute for the Structure and Dynamics of Matter,undefined
[7] University of Hamburg,undefined
来源
Nature Communications | / 6卷
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摘要
The cost, size and availability of electron accelerators are dominated by the achievable accelerating gradient. Conventional high-brightness radio-frequency accelerating structures operate with 30–50 MeV m−1 gradients. Electron accelerators driven with optical or infrared sources have demonstrated accelerating gradients orders of magnitude above that achievable with conventional radio-frequency structures. However, laser-driven wakefield accelerators require intense femtosecond sources and direct laser-driven accelerators suffer from low bunch charge, sub-micron tolerances and sub-femtosecond timing requirements due to the short wavelength of operation. Here we demonstrate linear acceleration of electrons with keV energy gain using optically generated terahertz pulses. Terahertz-driven accelerating structures enable high-gradient electron/proton accelerators with simple accelerating structures, high repetition rates and significant charge per bunch. These ultra-compact terahertz accelerators with extremely short electron bunches hold great potential to have a transformative impact for free electron lasers, linear colliders, ultrafast electron diffraction, X-ray science and medical therapy with X-rays and electron beams.
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