Design of the 590 MeV Proton Beamline for the Proposed TATTOOS Isotope Production Target at PSI

Hartmann, Marco; Kiselev, Daniela; Reggiani, Davide; Seidel, Mike; Snuverink, Jochem; Zhang, Hui

doi:10.18429/JACoW-IPAC2022-THPOMS023

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RIS citation export for THPOMS023: Design of the 590 MeV Proton Beamline for the Proposed TATTOOS Isotope Production Target at PSI

TY  - CONF
AU  - Hartmann, M.
AU  - Kiselev, D.C.
AU  - Reggiani, D.
AU  - Seidel, M.
AU  - Snuverink, J.
AU  - Zhang, H.
ED  - Zimmermann, Frank
ED  - Tanaka, Hitoshi
ED  - Sudmuang, Porntip
ED  - Klysubun, Prapong
ED  - Sunwong, Prapaiwan
ED  - Chanwattana, Thakonwat
ED  - Petit-Jean-Genaz, Christine
ED  - Schaa, Volker R.W.
TI  - Design of the 590 MeV Proton Beamline for the Proposed TATTOOS Isotope Production Target at PSI
J2  - Proc. of IPAC2022, Bangkok, Thailand, 12-17 June 2022
CY  - Bangkok, Thailand
T2  - International Particle Accelerator Conference
T3  - 13
LA  - english
AB  - IMPACT (Isotope and Muon Production with Advanced Cyclotron and Target Technologies) is a proposed initiative envisaged for the high-intensity proton accelerator facility (HIPA) at the Paul Scherrer Institute (PSI). As part of IMPACT, a radioisotope target station, TATTOOS (Targeted Alpha Tumour Therapy and Other Oncological Solutions) will allow the production of terbium radionuclides for therapeutic and diagnostic purposes. The proposed TATTOOS beamline and target will be located near the UCN (Ultra Cold Neutron source) target area, branching off from the main UCN beamline. In particular, the beamline is intended to operate at a beam intensity of 100 µA, requiring a continuous splitting of the main beam via an electrostatic splitter. Realistic beam loss simulations to verify safe operation have been performed and optimised using Beam Delivery Simulation (BDSIM), a Geant4 based tool enabling the simulation of beam transportation through magnets and particle passage through the accelerator. In this study, beam profiles, beam transmission and power deposits are generated and studied.
PB  - JACoW Publishing
CP  - Geneva, Switzerland
SP  - 3000
EP  - 3003
KW  - proton
KW  - target
KW  - simulation
KW  - neutron
KW  - site
DA  - 2022/07
PY  - 2022
SN  - 2673-5490
SN  - 978-3-95450-227-1
DO  - doi:10.18429/JACoW-IPAC2022-THPOMS023
UR  - https://jacow.org/ipac2022/papers/thpoms023.pdf
ER  -