X-ray spectroscopy is used to obtain single-shot information on electron beam emittance in a
low-energy-spread 0.5 GeV-class laser-plasma accelerator. Measurements of betatron …

The two-dimensional quasistatic simulation code WAKE [P. Mora and T. Antonsen, Phys.
Plasmas 4, 217 (1997)] used to model laser pulse propagation in tenuous plasma is …

Laser-and particle beam-driven plasma wakefield accelerators produce accelerating fields
thousands of times higher than radio-frequency accelerators, offering compactness and …

Electron acceleration in the bubble regime has been investigated by considering the bubble
shape as an ellipsoid. The equations of electron dynamics and energy are derived and …

The experiments presented in this thesis study several aspects of electron acceleration in a
laser-driven plasma wave. High-intensity lasers can efficiently drive a plasma wave that …

Theoretical investigation of the transient Z-pinch Ar-plasma waveguide was conducted on
CO 2-laser pulse with a central wavelength of 10.6 μm and an input peak intensity of 1.3× 10 …

The presence of low emittance beams in laser-plasma accelerators is indicated by single-
shot spectroscopic measurements of betatron X-rays. By matching the X-ray betatron spectra …

We present theoretical and numerical studies of the interaction between relativistically
intense laser light and a two-temperature plasma consisting of one relativistically hot and …

The theoretical investigation of wakefield acceleration of electrons by CO 2-laser pulse with
central wavelength of 10.6 μm and input peak intensity of∼ 10 17 W/cm 2 in transient …

For the past 80 years, the instrument of choice in experimental high-energy physics has
been particle accelerators, with the newest being the Large Hadron Collider (LHC) at CERN …