Characterization of bismuth nanospheres deposited by plasma focus device

We present a theory for nonlinear, multidimensional plasma waves with phase velocities near the speed of light. It is appropriate for describing plasma waves excited when all electrons are expelled out from a finite region by either the space charge of a short electron beam or the radiation pressure of a short intense laser. It works very well for the first bucket before phase mixing occurs. We separate the plasma response into a cavity or blowout region void of all electrons and a sheath of electrons just beyond the cavity. This simple model permits the derivation of a single equation for the boundary of the cavity. It works particularly well for narrow electron bunches and for short lasers with spot sizes matched to the radius of the cavity. It is also used to describe the structure of both the accelerating and focusing fields in the wake.

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Photon accelerator

Wilks

et al. 1989

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Beam loading by electrons in nonlinear plasma wakes

Tzoufras¹,

Lü²,

Tsung³

et al. 2009

118

142

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An analytical theory for the interaction of an electron bunch with a nonlinear plasma wave is developed to make it possible to design efficient laser- and/or beam-driven accelerators that generate high quality monoenergetic electron beams. This theory shows how to choose the charge, the shape, and the placing of the bunch so that the conversion efficiency from the fields of the bubble to the accelerating electrons reaches nearly 100% and the beam quality is optimized. For intense drivers the nonlinear wake is described by the shape of the bubble and beam loading arises when the radial space-charge force of the beam acts back on the electron sheath surrounding the ion channel. The modification of the wake due to the presence of flat-top electron bunches is studied and it is shown that the energy spread of an externally injected flat-top electron bunch can be kept low. The bunch profile that leads to zero energy spread is also derived.

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Frequency Up-Conversion of Electromagnetic Radiation with Use of an Overdense Plasma

1988

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W. B. Mori

Nonlinear Theory for Relativistic Plasma Wakefields in the Blowout Regime

Photon accelerator

Beam loading by electrons in nonlinear plasma wakes

Frequency Up-Conversion of Electromagnetic Radiation with Use of an Overdense Plasma

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