Electron self-injection for the acceleration in laser-pulse-wakes in the presence of a `strong' external magnetic field

arxiv: 1202.3828 · v1 · pith:XWZH623Lnew · submitted 2012-02-17 · ⚛️ physics.plasm-ph · physics.acc-ph

Electron self-injection for the acceleration in laser-pulse-wakes in the presence of a `strong' external magnetic field

A. Zhidkov , T. Hosokai , S. Masuda , Y. Oishi , T. Fujii , R. Kodama This is my paper

classification ⚛️ physics.plasm-ph physics.acc-ph

keywords electronfieldlasermagneticaccelerationexternalself-injectionstrength

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An external static magnetic field with its strength B~10T may result in the laser wake wave-breaking upon changing the electron motion in the vicinity of maximal density ramp of a wave period. This, as shown by numerical simulations, can change the resonance character of the electron self-injection in the laser wake-field; a total charge loaded in the acceleration phase of laser pulse wake can be controlled by a proper choice of the magnetic field strength.

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Electron self-injection for the acceleration in laser-pulse-wakes in the presence of a `strong' external magnetic field

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