Acceleration of electrons with the racetrack nonscaling ffag for e-RHIC

Acceleration of electrons with the racetrack nonscaling ffag for e-RHIC

The future relativistic electron hadron collider: e-RHIC requires acceleration of electrons to 10 GeV with a possible upgrade to 20 GeV. In the case that the super conducting linac is selected for acceleration, an energy recovery scheme is required. We propose to study a possibility of using the non...

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Hauptverfasser: Trbojevic, D., Berg, S.J., Ben-Zvi, I., Blaskiewicz, M., Litvinenko, V., MacKay, W., Ptitsyn, V., Roser, T., Ruggiero, A.G.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Acceleration
Apertures
Costs
Electrons
Infrared detectors
Laboratories
Lattices
Linear particle accelerator
Radio frequency
Superconducting magnets
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Zusammenfassung:The future relativistic electron hadron collider: e-RHIC requires acceleration of electrons to 10 GeV with a possible upgrade to 20 GeV. In the case that the super conducting linac is selected for acceleration, an energy recovery scheme is required. We propose to study a possibility of using the non-scaling Fixed-Field Gradient- Accelerator (NS-FFAG) for different energies. The beam will be accelerated by the superconducting linac at the top of the sine function, brought back to the front of the linac by the non-scaling FFAG and repeating this a few times until the total energy of 20 GeV is reached. After collisions the beam is brought back by the non-scaling FFAG and decelerated (on the lower RF phase) in the same sequence but in the reverse order. Conventional and non-conventional beam dynamic issues will be discussed, like the transit time matching effect and the time of flight adjustments.
ISSN:1944-4680
2152-9582
DOI:10.1109/PAC.2007.4440716