Silicon nanowire based high brightness, pulsed relativistic electron source

Anno: 2017

Autori: Sarkar D., Kumar Singh P., Cristoforetti G., Adak A., Chatterjee G., Shaikh M., Amit D. Lad, Londrillo P., D’Arrigo G., Jha J., Krishnamurthy M., Gizzi LA., Ravindra Kumar G.

Affiliazione autori: Tata Institute of Fundamental Research, Mumbai, India;
ILIL, National Institute of Optics, CNR, Pisa, Italy;
CNR-Institute for Microelectronics and Microsystems, Catania, Italy;
Tata Institute of Fundamental Research, Hyderabad, India

Abstract: We demonstrate that silicon nanowire arrays efficiently emit relativistic electron pulses under irradiation by a high-intensity, femtosecond, and near-infrared laser (similar to 10(18) W/cm(2), 25 fs, 800 nm). The nanowire array yields fluxes and charge per bunch that are 40 times higher than those emitted by an optically flat surface, in the energy range of 0.2-0.5 MeV. The flux and charge yields for the nanowires are observed to be directional in nature unlike that for planar silicon. Particle-in-cell simulations establish that such large emission is caused by the enhancement of the local electric fields around a nanowire, which consequently leads to an enhanced absorption of laser energy. We show that the high-intensity contrast (ratio of picosecond pedestal to femtosecond peak) of the laser pulse (10(-9)) is crucial to this large yield. We extend the notion of surface local-field enhancement, normally invoked in low-order nonlinear optical processes like second harmonic generation, optical limiting, etc., to ultrahigh laser intensities. These electron pulses, expectedly femtosecond in duration, have potential application in imaging, material modification, ultrafast dynamics, terahertz generation, and fast ion sources. (C) 2017 Author(s). All article content, except where otherwise noted, is licensed under a Creative Commons Attribution (CC BY) license.

Giornale/Rivista: APL PHOTONICS

Volume: 2      Da Pagina: 066105-1  A: 066105-7

Parole chiavi: laser-plasma; nanostructures;
DOI: 10.1063/1.4984906

Citazioni: 11
dati da “WEB OF SCIENCE” (of Thomson Reuters) aggiornati al: 2024-04-07
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