Speaker
MinKyu Seo
(Korea University Sejong Campus)
Description
A recent simulation study demonstrated the potential to achieve high 4D-emittance using an emittance exchange (EEX) beamline integrated within a photoinjector. This EEX beamline enabled to achieve the final normalized longitudinal emittance of 0.44 micron, which corresponds to rms bunch length of 7micron and energy spread of 32keV. These results are noteworthy for a 60-MeV photoinjector comprising a gun, linac, and EEX beamline. However, the transverse emittance of approximately 0.6 micron remains a limitation for many applications. To address this, we have conducted computational studies to improve the performance of EEX photoinjector. We present the progress achieved thus far.
Region represented | Asia |
---|---|
Paper preparation format | Others |
Author
MinKyu Seo
(Korea University Sejong Campus)
Co-authors
Gwanghui Ha
(Northern Illinois University)
Seong Hee Park
(Korea University Sejong Campus)