Title :
Plasmon-assisted double-gate field emitter arrays
Author :
Mustonen, Anna ; Oh, Yisok ; Helfenstein, Patrick ; Tsujino, Soichiro ; Feurer, T.
Author_Institution :
Lab. for Micro & Nanotechnol., Paul Scherrer Inst., Villigen, Switzerland
Abstract :
Electron pulses down to the femtoseconds duration can be generated by exciting metallic nanotips by ultrafast laser pulses. Using an array of metal nanotips, one can generate high-bunch charge pulses with ~107 electrons. Double-gate field emitter arrays with sub-micron pitch nano-tips combined with the surface plasmon polariton resonance of the gate electrode and the beam collimation performance of the stacked-double-gate structure have been proposed recently to further enhance the electron yield and reduce the beam emittance aiming at realizing a ultrabright cathode for the X-ray free-electron lasers and THz vacuum electronic amplifiers, In this work, we present the detailed numerical studies of the proposed structure to elucidate the physical process that enables the efficient tip-laser couplings.
Keywords :
field emitter arrays; free electron lasers; surface plasmon resonance; THz vacuum electronic amplifiers; X-ray free-electron lasers; beam collimation performance; double-gate field emitter arrays; electron pulses; electron yield; femtoseconds duration; gate electrode; metallic nanotip array; physical process; stacked-double-gate structure; sub-micron pitch nano-tips; surface plasmon polariton resonance; tip-laser couplings; ultrabright cathode; ultrafast laser pulses; Lasers; extraordinary transmission; field emission; free-electron laser; surface plasmon; vacuum electronic;
Conference_Titel :
Vacuum Nanoelectronics Conference (IVNC), 2014 27th International
Conference_Location :
Engelberg
Print_ISBN :
978-1-4799-5306-6
DOI :
10.1109/IVNC.2014.6894733
