The ELI-NP GBS (Extreme Light Infrastructure-Nuclear Physics Gamma Beam Source) is a high brightness elec-tron LINAC that is being built in Romania. The goal for this facility is to provide high luminosity gamma beam through Compton Backscattering. A train of 32 bunches at 100Hz with a nominal charge of 250pC is accelerated up to 740 MeV. Two interaction points with an IR Laser beam produces the gamma beam at different energies. In order to measure the electron beam spot size and the beam proper-ties along the train, the OTR screens must sustain the ther-mal and mechanical stress due to the energy deposited by the bunches. This paper is an ANSYS study of the issues due to the high quantity of energy transferred to the OTR screen. They will be shown different analysis, steady-state and thermal transient analysis, where the input loads will be the internal heat generation equivalent to the average power, deposited by the ELI-GBS beam in 512 ns, that is the train duration. Each analyses will be followed by the structural analysis to investigate the performance of the OTR materia
Thermal simulations for optical transition radiation screen for Eli-NP compton gamma source / Cioeta, Fara; Alesini, David; Falone, A.; Lollo, V.; Pellegrino, L.; Variola, A.; Ciambrella, Massimo; Marongiu, Marco; Mostacci, Andrea; Palumbo, Luigi; Pettinacci, V.. - ELETTRONICO. - (2016), pp. 537-540. (Intervento presentato al convegno 5th Int. Beam Instrumentation Conf.(IBIC'16) tenutosi a Barcelona, Spain nel Sept. 13-18, 2016) [10.18429/JACoW-IBIC2016-TUPG75].
Thermal simulations for optical transition radiation screen for Eli-NP compton gamma source
CIOETA, Fara;ALESINI, DAVID;CIAMBRELLA, MASSIMO;MARONGIU, MARCO;MOSTACCI, Andrea;PALUMBO, Luigi;
2016
Abstract
The ELI-NP GBS (Extreme Light Infrastructure-Nuclear Physics Gamma Beam Source) is a high brightness elec-tron LINAC that is being built in Romania. The goal for this facility is to provide high luminosity gamma beam through Compton Backscattering. A train of 32 bunches at 100Hz with a nominal charge of 250pC is accelerated up to 740 MeV. Two interaction points with an IR Laser beam produces the gamma beam at different energies. In order to measure the electron beam spot size and the beam proper-ties along the train, the OTR screens must sustain the ther-mal and mechanical stress due to the energy deposited by the bunches. This paper is an ANSYS study of the issues due to the high quantity of energy transferred to the OTR screen. They will be shown different analysis, steady-state and thermal transient analysis, where the input loads will be the internal heat generation equivalent to the average power, deposited by the ELI-GBS beam in 512 ns, that is the train duration. Each analyses will be followed by the structural analysis to investigate the performance of the OTR materia| File | Dimensione | Formato | |
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