Simulations of the Stage 2 FFA Injection Line of LhARA for Evaluating Beam Transport Performance

Shields, William; Kurup, Ajit; Lau, Hin Tung; Long, Kenneth; Pasternak, Jaroslaw

doi:10.18429/JACoW-IPAC2021-THPAB359

Joint Accelerator Conferences Website

The Joint Accelerator Conferences Website (JACoW) is an international collaboration that publishes the proceedings of accelerator conferences held around the world.

RIS citation export for THPAB359: Simulations of the Stage 2 FFA Injection Line of LhARA for Evaluating Beam Transport Performance

TY  - CONF
AU  - Shields, W.
AU  - Kurup, A.
AU  - Lau, H.T.
AU  - Long, K.R.
AU  - Pasternak, J.
ED  - Liu, Lin
ED  - Byrd, John M.
ED  - Neuenschwander, Regis T.
ED  - Picoreti, Renan
ED  - Schaa, Volker R. W.
TI  - Simulations of the Stage 2 FFA Injection Line of LhARA for Evaluating Beam Transport Performance
J2  - Proc. of IPAC2021, Campinas, SP, Brazil, 24-28 May 2021
CY  - Campinas, SP, Brazil
T2  - International Particle Accelerator Conference
T3  - 12
LA  - english
AB  - A new, novel facility for radiobiological research, the Laser-hybrid Accelerator for Radiobiological Applications (LhARA), has recently been proposed. LhARA will be a two-stage facility with the first stage employing laser-target acceleration to produce intense proton bunches of energies up to 15 MeV. The second stage will accelerate the beam in an FFA ring up to 127 MeV. Optimal performance of stage 2, however, will require an emittance reduction of the stage 1 beam due to the FFA’s nominal dynamical acceptance. Here, we demonstrate a new optical configuration of LhARA’s stage 1 lattice that will provide this reduced emittance. The profile of the laser-target generated beam is far from an ideal Gaussian, therefore two start-to-end Monte Carlo particle tracking codes have been used to model beam transport performance from the laser-target source through to the end of the stage 2 FFA injection line. The Geant4-based Beam Delivery Simulation (BDSIM) was used to model beam losses and the collimation that is crucial to LhARA’s energy selection system, and General Particle Tracer (GPT) was used to model the space-charge effects that may impact performance given the emittance reduction.
PB  - JACoW Publishing
CP  - Geneva, Switzerland
SP  - 4495
EP  - 4498
KW  - space-charge
KW  - injection
KW  - simulation
KW  - laser
KW  - target
DA  - 2021/08
PY  - 2021
SN  - 2673-5490
SN  - 978-3-95450-214-1
DO  - doi:10.18429/JACoW-IPAC2021-THPAB359
UR  - https://jacow.org/ipac2021/papers/thpab359.pdf
ER  -