IPAC'24 - 15th International Particle Accelerator Conference

Beam dynamics and injection condition in a ring-type dipole of a laser-accelerated electron beam for compact light sources

SUPC052

19 May 2024, 14:00

4h

Country (MCC Exhibit Hall A)

Student Poster Presentation MC2.A24 Accelerators and Storage Rings, Other Student Poster Session

Speaker

Keonho Kim (Korea University)

Description

We are developing a compact synchrotron light source using laser electron acceleration, focusing on creating a tabletop accelerator-based radiation system. Our approach involves a small ring-type dipole with block-shaped permanent magnets, prioritizing cost and weight reduction. Simple beam dynamic calculations revealed that a smaller electron beam divergence angle results in a more stable orbit and the field modulation of peak magnetic strength improves the stability without the additional quadrupoles. CST simulations shows that the magnetic field of the ring-type dipole includes the field modulation of peak magnetic strength along the orbit due to shape changes. The injection to the ring-type dipole is the one of the issues to be solved for a compact light source. In this paper, we present the studies on designing and optimizing the ring-type dipole including the injection of electron beam and the extraction of dipole radiation.