Title :
Evanescent-wave proton post-accelerator driven by intense THz pulses
Author :
Palfalvi, L. ; Fulop, J.A. ; Toth, Gergely ; Hebling, J.
Author_Institution :
Dept. of Exp. Phys., Univ. of Pecs, Pécs, Hungary
Abstract :
Here, a compact solution is proposed for post-acceleration and monochromatization of particles leaving the laser-driven accelerator. The proposed method relies on the evanescent field of intense THz pulses undergoing total internal reflection at symmetrically arranged dielectric-vacuum interfaces. THz pulses in the 0.1-1 THz frequency range are promising for this application, due to their advantageous wavelength, and to the fact that they can be generated with extremely high electric field strength (>1 MV/cm), and pulse energy (125 μJ) in LiNbO3 (LN) by tilted-pulse-front excitation. Choosing LN as the dielectric material of the evanescent accelerator has the important advantage that it can function also as THz source leading to a very compact setup.
Keywords :
lithium compounds; proton accelerators; reflectivity; terahertz wave detectors; LiNbO3; compact solution; dielectric material; evanescent field; evanescent-wave proton post-accelerator; frequency 0.1 THz to 1 THz; intense THz pulses; laser-driven accelerator; particles monochromatization; post-acceleration; symmetrically arranged dielectric-vacuum interfaces; tilted-pulse-front excitation; total internal reflection; Ion accelerators; Laser beams; Medical treatment; Particle beams; Proton accelerators; Protons;
Conference_Titel :
Lasers and Electro-Optics Europe (CLEO EUROPE/IQEC), 2013 Conference on and International Quantum Electronics Conference
Conference_Location :
Munich
Print_ISBN :
978-1-4799-0593-5
DOI :
10.1109/CLEOE-IQEC.2013.6800802
