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Ion acceleration with an ultra-intense two-frequency laser tweezer
Ultra-intense lasers produce and manipulate plasmas, allowing to locally generate extremely high static and electromagnetic fields. This study presents a concept of an ultra-intense optical tweezer, where two counter-propagating circularly polarized intense lasers of different frequencies collide on...
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Published in: | New journal of physics 2020-05, Vol.22 (5), p.52002 |
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container_issue | 5 |
container_start_page | 52002 |
container_title | New journal of physics |
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creator | Wan, Y Andriyash, I A Pai, C H Hua, J F Zhang, C J Li, F Wu, Y P Nie, Z Mori, W B Lu, W Malka, V Joshi, C |
description | Ultra-intense lasers produce and manipulate plasmas, allowing to locally generate extremely high static and electromagnetic fields. This study presents a concept of an ultra-intense optical tweezer, where two counter-propagating circularly polarized intense lasers of different frequencies collide on a nano-foil. Interfering inside the foil, lasers produce a beat wave, which traps and moves plasma electrons as a thin sheet with an optically controlled velocity. The electron displacement creates a plasma micro-capacitor with an extremely strong electrostatic field, that efficiently generates narrow-energy-spread ion beams from the multi-species targets, e.g. protons from the hydrocarbon foils. The proposed ion accelerator concept is explored theoretically and demonstrated numerically with the multi-dimensional particle-in-cell simulations. |
doi_str_mv | 10.1088/1367-2630/ab8678 |
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subjects | 70 PLASMA PHYSICS AND FUSION TECHNOLOGY Acceleration Circular polarization Computer simulation Electric fields Electromagnetic fields Foils Ion beams laser ion acceleration Lasers Particle in cell technique Physics plasma instability Plasmas (physics) two frequency laser tweezer |
title | Ion acceleration with an ultra-intense two-frequency laser tweezer |
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