Smith-Purcell Radiation from Compound Blazed Gratings

TL;DR

This paper investigates how the angular dispersion of Smith-Purcell radiation can be controlled using compound gratings with multiple closely-spaced slits, showing that emission can be selectively enhanced or attenuated.

Contribution

It introduces a novel analysis of compound gratings with multiple slits, demonstrating control over Smith-Purcell radiation characteristics not seen in simple gratings.

Findings

Angular dispersion can be selectively attenuated or enhanced.

Adding slit elements affects emission intensity.

Different slit sizes influence emission enhancement.

Abstract

Free electrons travelling in vacuum carry evanescent electric field, which can only be coupled to free space light via interaction with a surrounding or nearby medium: as Cherenkov radiation when travelling faster than the local velocity of light or as "Smith-Purcell" (SP) radiation when passing over the surface of a grating. The SP emission characteristics of simple gratings such as a regular array of wires or slits are a well-understood phenomenon. Here we show that for a compound grating made up of several closely-spaced slits repeated for each period, the characteristic angular dispersion of Smith-Purcell radiation can be selectively attenuated or enhanced. We analyze, in particular, the change in intensity as slit elements are added to the structure for two slit sizes and how this affects emission enhancement.