Compensation of Insertion Device Induced Emittance Variations in Ultralow Emittance Storage Rings by a Dispersion Bump in a Wiggler
Autor: | Sannibale, Fernando, Ehrlichman, Michael, Hellert, Thorsten, Leemann, Simon, Robin, David, Steier, Christoph, Sun, Changchun, Venturini, Marco |
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Jazyk: | angličtina |
Rok vydání: | 2019 |
Předmět: | |
DOI: | 10.18429/jacow-ipac2019-tupgw093 |
Popis: | Multi-bend achromat lattices allow for the design of extremely low emittance electron storage rings and hence for the realization of extremely high- brightness X-ray photon sources. In these new rings, the beam energy lost to radiation in the insertion devices (IDs) is often comparable to that lost in the ring dipole magnets. This implies that with respect to the typical 3rd generation light source, these new machines are more sensitive to the energy loss variations randomly occurring as the many users independently operate the gap of their IDs. The consequent induced variations in radiation damping time, equilibrium emittance, and transverse beam sizes at the radiation point sources can be significant and degrade the experimental performance in some of the beam-lines. In this paper we describe and discuss a possible method to compensate for such emittance variations by using a variable dispersion bump localized inside a fixed gap wiggler. Proceedings of the 10th Int. Particle Accelerator Conf., IPAC2019, Melbourne, Australia |
Databáze: | OpenAIRE |
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