Abstract
Two energy-varying beam extraction schemes for energy sweeping compact rapid cycling therapy are discussed. One is one-turn (fast) extraction of a ${\mathrm{C}}^{6+}$ bunch from a fast-cycling hadron driver accelerator assisted by an off-momentum bump orbit, in which a combination of a kicker and a septum magnet are fired at a desired timing (or energy). The other is energy sweeping extraction, in which a ${\mathrm{C}}^{5+}$ bunch delivered from the laser ablation ion source is injected and accelerated in the barrier bucket up to the final energy. A fraction of the trapped ${\mathrm{C}}^{5+}$ ions is continuously released from the bucket on the way to the final energy to form a coasting beam over an expected time (or energy) region, and the beam drifts inward in the large flat momentum dispersion region. The drifting ${\mathrm{C}}^{5+}$ beam hits the stripper carbon foil located at the front of the bending magnet and near the inner surface of the vacuum chamber in the large flat dispersion region and is converted to a ${\mathrm{C}}^{6+}$ beam. The combination of the enhanced bending radius and septum magnet allows easy ${\mathrm{C}}^{6+}$ beam extraction by the single septum magnet downstream.
Highlights
Energy sweeping compact rapid cycling hadron therapy (ESCORT) [1] based on a fast-cycling induction synchrotron [2] has been proposed for the generation of hadron therapy, and KEK and SAMEER are currently collaborating on the engineering design work [3]
It is crucial that the extraction timing and energy in the one-turn extraction and the extraction time duration and energy range in the energy sweep extraction can be changed cycle by cycle, the driver accelerator is always operated in the same repetition pattern of 10 Hz
Details of one-turn energy-varying beam extraction assisted by the off-momentum orbit, which performs a role similar to a bump orbit, were discussed
Summary
Energy sweeping compact rapid cycling hadron therapy (ESCORT) [1] based on a fast-cycling induction synchrotron [2] has been proposed for the generation of hadron therapy, and KEK and SAMEER are currently collaborating on the engineering design work [3]. It is crucial that the extraction timing and energy in the one-turn extraction and the extraction time duration and energy range in the energy sweep extraction can be changed cycle by cycle, the driver accelerator is always operated in the same repetition pattern of 10 Hz. Generally, a combination of a kicker magnet and a septum magnet is used for the oneturn extraction of a C6þ beam. Combining the large dispersion function and offmomentum acceleration of Δp=p 1⁄4 þ0.2% just before the extraction timing generates a bump orbit, DðsÞΔp=p, that improves kicker and septum performance. Basic features in the extraction process using a combination of kicker and septum magnet are similar to the usual fast extraction from a conventional fast-cycling rf synchrotron, except for the circuit architecture of the kicker and septum magnet power supplies This novel circuit architecture is crucial for energy-varying extraction that must always follow the excitation profile of the main magnet fields of the ring.
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