摘要
Metasurfaces are subwavelength spatial variations in geometry and material where the structures are of negligible thickness compared to the wavelength of light and are optimized for far-field applications,such as controlling the wavefronts of electromagnetic waves.Here,we investigate the potential of the metasurface near-field profile,generated by an incident few-cycle pulse laser,to facilitate the generation of high-frequency light from free electrons.In particular,the metasurface near-field contains higher-order spatial harmonics that can be leveraged to generate multiple higher-harmonic X-ray frequency peaks.We show that the X-ray spectral profile can be arbitrarily shaped by controlling the metasurface geometry,the electron energy,and the incidence angle of the laser input.Using ab initio simulations,we predict bright and monoenergetic X-rays,achieving energies of 30 keV(with harmonics spaced by 3 keV)from 5-MeV electrons using 3.4-eV plasmon polaritons on a metasurface with a period of 85 nm.As an example,we present the design of a four-color X-ray source,a potential candidate for tabletop multicolor hard X-ray spectroscopy.Our developments could help pave the way for compact multi-harmonic sources of high-energy photons,which have potential applications in industry,medicine,and the fundamental sciences.
基金
supported by a fellowship from The Belgian American Educational Foundation,Wallonie–Bruxelles International and the F.R.S.-FNRS
supported by the Science and Engineering Research Council(SERC
grant no.1426500054)of the Agency for Science,Technology and Research(A*STAR),Singapore
the support of the DOE Computational Science Graduate Fellowship(CSGF)Number DEFG02-97ER25308
supported by the Azrieli foundation and the Seventh Framework Programme of the European Research Council(FP7-Marie Curie IOF)under grant agreement no.328853CMC-BSiCS
supported by the U.S.Army Research Office through the Institute for Soldier Nanotechnologies under contract nos W911NF-18-2-0048 and W911NF-13-D-0001.