Dolev Roitman scite author profile

Metasurfaces constitute a powerful approach to generate and control light by engineering optical material properties at the subwavelength scale. Recently, this concept was applied to manipulate free-electron radiation phenomena, rendering versatile light sources with unique functionalities. In this Letter, we experimentally demonstrate spectral and angular control over coherent light emission by metasurfaces that interact with freeelectrons under grazing incidence. Specifically, we study metalenses based on chirped metagratings that simultaneously emit and shape Smith−Purcell radiation in the visible and near-infrared spectral regime. In good agreement with theory, we observe the far-field signatures of strongly convergent and divergent cylindrical radiation wavefronts using in situ hyperspectral angle-resolved light detection in a scanning electron microscope. Furthermore, we theoretically explore simultaneous control over the polarization and wavefront of Smith−Purcell radiation via a split-ring-resonator metasurface, enabling tunable operation by spatially selective mode excitation at nanometer resolution. Our work highlights the potential of merging metasurfaces with free-electron excitations for versatile and highly tunable radiation sources in wide-ranging spectral regimes.

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Large-Scale Inverse Design of a Planar On-Chip Mode Sorter

Domenico

Weisman

Panichella

et al. 2022

ACS Photonics

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A gatling-gun target delivery system for high-intensity laser irradiation experiments

Gershuni

Roitman

Cohen

et al. 2019

Nuclear Instruments and Methods in Physics Research Section A:

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Shaping of Electron Beams Using Sculpted Thin Films

Roitman

Shiloh

et al. 2021

ACS Photonics

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Electron beam shaping by sculpted thin films relies on electron–matter interactions and the wave nature of electrons. It can be used to study physical phenomena of special electron beams and to develop technological applications in electron microscopy that offer new and improved measurement techniques and increased resolution in different imaging modes. In this Perspective, we review recent applications of sculpted thin films for electron orbital angular momentum sorting, improvements in phase contrast transmission electron microscopy, and aberration correction. For the latter, we also present new results of our work toward correction of the spherical aberration of Lorentz scanning transmission electron microscopes and suggest a method to correct chromatic aberration using thin films. This review provides practical insight for researchers in the field and motivates future progress in electron microscopy.

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Smith-Purcell Metasurface Lens

Karnieli

Roitman

Liebtrau

et al. 2021

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Dolev Roitman

Cylindrical Metalens for Generation and Focusing of Free-Electron Radiation

Large-Scale Inverse Design of a Planar On-Chip Mode Sorter

A gatling-gun target delivery system for high-intensity laser irradiation experiments

Shaping of Electron Beams Using Sculpted Thin Films

Smith-Purcell Metasurface Lens

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