THz Superradiant Smith-Purcell FEL driven by laser-modulated keV electrons

碩士 === 國立清華大學 === 先進光源科技學位學程 === 103 === A density-modulated electron beam can generate coherent spontaneous radiation at the harmonics of the modulating frequency. This study employs a multicolor laser beating at sub-THz frequencies to modulate the photocurrent from a keV electron gun. The modulate...

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Bibliographic Details
Main Authors: Wang, Yi-Chu, 王奕筑
Other Authors: Huang, Yen-Chieh
Format: Others
Language:en_US
Published: 2015
Online Access:http://ndltd.ncl.edu.tw/handle/70252234347294597226
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Summary:碩士 === 國立清華大學 === 先進光源科技學位學程 === 103 === A density-modulated electron beam can generate coherent spontaneous radiation at the harmonics of the modulating frequency. This study employs a multicolor laser beating at sub-THz frequencies to modulate the photocurrent from a keV electron gun. The modulated electron beam drives a Smith–Purcell FEL to generate THz coherent radiation. We first built an infrared two-color laser containing a thin etalon in an Nd:YVO4 laser cavity to generate two laser spectral components separated by 124.6 GHz. Quadrupling the laser frequency in nonlinear optical materials generates a UV frequency with adjacent components separated by 124.6 GHz. This UV laser is useful to modulate the photocurrent from a photoinjector at the comb frequencies. As a design example, the photocathode of a 10–25 keV DC electron gun is illuminated with this multicolor laser and the keV electron beam is propagated above a 30 mm-long Smith–Purcell grating with a groove period of 240 um. With 18.2 keV beam energy, our simulation using the MAGIC code confirms coherent radiation at the third harmonic of the 124.6 GHz at a 56-degree radiation angle from the Smith–Purcell grating. Coherent radiation can be observed in simulation with a sub-mA beam current.