Measuring Beam Energy and Energy Jitter on the Compact X-Ray Light Source
For this thesis, the energy of the CXLS electron beam was measured and the beam’s energy jitter was calculated. It is essential to characterize the beam’s en- ergy and energy jitter in order to ensure that the powerful x-rays produced by CXLS will be of a consistent and desirable energy. The energy of the electrons within the electron beam can be calculated through utilizing basic physics prin- ciples and the geometry of the beamline. The energy of the beam for the data collected was found to be 3.426 MeV at POP module 1 and 12.3 MeV at POP module 9. The energy jitter of the beam was determined for four different angle settings of the VPSPD for linac 1 and found to be lowest when the linac 1 VPSPD was set to an angle of 97°. The energy jitter of the beam was 1.50e-03 MeV when the VPSPD for linac 1 was set to 97°.
- Author (aut): Larsen, Rachel
- Thesis director: Graves, William
- Committee member: Teitelbaum, Samuel
- Contributor (ctb): Barrett, The Honors College
- Contributor (ctb): School of International Letters and Cultures
- Contributor (ctb): Department of Physics