Layout and Performance of the FCC-ee Pre-Injector Chain

The Future Circular e⁺e⁻ Collider pre-injector chain consists of a 6 GeV S-Band linac, a damping ring at 1.54 GeV and pre-booster ring to reach 20 GeV for injection to the main booster. The electron and positron beams use the same accelerator chain alternatively. The e⁺ beam is generated from a nove...

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Detalles Bibliográficos
Autores principales: Ogur, Salim, Charles, Tessa, Oide, Katsunobu, Barnyakov, Alexey, Chaikovska, Iryna, Rinolfi, Louis, Chehab, Robert, Furukawa, Kazuro, Iida, Naoko, Kamitani, Takuya, Levichev, Alexey, Martyshkin, Pavel, Miyahara, Fusashi, Nikiforov, Danila, Ozcan, Erkcan, Papaphilippou, Yannis, Polozov, Sergey, Zimmermann, Frank
Lenguaje:eng
Publicado: 2018
Materias:
Accelerators and Storage Rings
Acceso en línea:https://dx.doi.org/10.18429/JACoW-IPAC2018-MOPMF034
https://dx.doi.org/10.1088/1742-6596/1067/2/022011
http://cds.cern.ch/record/2653486
Descripción
Sumario:The Future Circular e⁺e⁻ Collider pre-injector chain consists of a 6 GeV S-Band linac, a damping ring at 1.54 GeV and pre-booster ring to reach 20 GeV for injection to the main booster. The electron and positron beams use the same accelerator chain alternatively. The e⁺ beam is generated from a novel low level RF-gun providing 6.5 nC charge at 11 MeV with 0.5 micron geometric emittance. The e⁺ beam is produced by the impact of a 4.46 GeV e⁻ beam onto a hybrid target, accelerated in the linac up to 1.54 GeV, and injected to the damping ring for emittance cooling. Simulations on the performance of the DR are presented for reaching the required equilibrium emittances at the required damping time. As an alternative option, a 20 GeV linac is considered utilising C-Band cavities and simulations studies have been undertaken regarding the beam transport and transmission efficiency up to that energy.

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