Optimization of an electron injector for operating high-intensity polarized electron beam

Author:

Liu Wei1,Wang Erdong1ORCID

Affiliation:

1. Brookhaven National Laboratory, Upton, NY 11973, USA

Abstract

The simulation and optimization of an electron injector that operates a high-intensity polarized electron beam are presented. The electron injector would provide a single-bunch electron beam at a repetition rate of 1 Hz with a bunch charge of 10 nC, kinetic energy of 400 MeV and an electron spin polarization of 85[Formula: see text]. A direct current (DC) high-voltage photogun was employed to produce the 10 nC polarized electron beam with a kinetic energy of 350 keV, beam diameter of 1.44 cm (Gaussian distribution with [Formula: see text] of 0.36 cm) and full bunch length of 1.3 ns (Gaussian distribution with [Formula: see text] of 0.325 ns). The beam was compressed to 6 ps of RMS bunch length using one 114.24 MHz standing-wave sub-harmonic buncher, two 571.2 MHz standing-wave sub-harmonic bunchers and one 2.856 GHz traveling-wave buncher. The beam was accelerated finally to 400 MeV via eight 2.856 GHz traveling-wave Linacs. We performed the beam simulation, and the simulated results showed that the optimized RMS bunch length was 4.65 ps, RMS relative energy spread was 0.48[Formula: see text] and normalized RMS transverse emittance was [Formula: see text] at a beam energy of 400 MeV.

Funder

Office of Science

Publisher

World Scientific Pub Co Pte Ltd

Subject

Astronomy and Astrophysics,Nuclear and High Energy Physics,Atomic and Molecular Physics, and Optics

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