Mapping photocathode quantum efficiency with ghost imaging

Abstract: Measuring the quantum efficiency (QE) map of a photocathode injector typically requires laser scanning, an invasive operation that involves modifying the injector laser focus and rastering the focused laser spot across the photocathode surface. Raster scanning interrupts normal operation and takes considerable time to setup. In this paper, we demonstrate a novel method of measuring the QE map using a ghost imaging framework that correlates the injector laser spatial variation over time with the total charge yi… Show more

“…Focusing of a relativistic electron beam was performed at the UCLA Pegasus beamline [5]. The electron bunch is created in the photoinjector, accelerated to a kinetic energy of 3.2 MeV (relativistic factor γ=7.24), focused by the MPQ, then imaged on a screen 0.5 m downstream.…”

Focusing of a Relativistic Electron Beam With a Microfabricated Quadrupole Magnet

“…Focusing of a relativistic electron beam was performed at the UCLA Pegasus beamline [5]. The electron bunch is created in the photoinjector, accelerated to a kinetic energy of 3.2 MeV (relativistic factor γ=7.24), focused by the MPQ, then imaged on a screen 0.5 m downstream.…”

Focusing of a Relativistic Electron Beam With a Microfabricated Quadrupole Magnet

NEA surface AlGaN heterojunction tilted nanowire array photocathode for vacuum electron sources

Nanoscale heterojunctions of InGaN/GaN photocathodes for electron sources