Production of Electron and Flat Ion Blocks by Using Ultra Intense Laser, Particularly in the Ultraviolet Range, Ph.D. Dissertation Sharif University of Technology ; Anvari, Abbas (Supervisor) ; Sadighi Bonabi, Rasoul (Supervisor)
Abstract
In the present work, interaction of high power and ultra short laser pulse with plasma in both under relativistic and relativistic regimes is investigated. The accelerated ions and electron are studied. The effect of pulse laser shapes on generating of the optimum wakefield is studied to find the maximum generated wakefield amplitude. It is found that similar to the wakefield amplitude generated by single pulse, the wakefield amplitude produced by dual trailing depends on the pulse shape and their permutation. Furthermore, the interaction of sub-picosecond UV laser in sub-relativistic intensities with deuterium is investigated. At high plasma temperatures, based on the quantum correction in...
Cataloging briefProduction of Electron and Flat Ion Blocks by Using Ultra Intense Laser, Particularly in the Ultraviolet Range, Ph.D. Dissertation Sharif University of Technology ; Anvari, Abbas (Supervisor) ; Sadighi Bonabi, Rasoul (Supervisor)
Abstract
In the present work, interaction of high power and ultra short laser pulse with plasma in both under relativistic and relativistic regimes is investigated. The accelerated ions and electron are studied. The effect of pulse laser shapes on generating of the optimum wakefield is studied to find the maximum generated wakefield amplitude. It is found that similar to the wakefield amplitude generated by single pulse, the wakefield amplitude produced by dual trailing depends on the pulse shape and their permutation. Furthermore, the interaction of sub-picosecond UV laser in sub-relativistic intensities with deuterium is investigated. At high plasma temperatures, based on the quantum correction in...
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