Super-FRS Target Area Remote Handling: Scenario and Development
نویسندگان
چکیده
منابع مشابه
Shielding of the Super-FRS pre-separator area
Progress of the shielding calculation of the Super-FRS is reported here. At least as important as the shielding of the target area is the determination of the shielding in the region of the first dipoles as the part of the primary beam that will not interact in the target will be stopped here. The Monte-Carlo-method with FLUKA [1] used for the shielding assessment here has already been describe...
متن کامل3D hydrodynamic calculations of the Super-FRS liquid lithium target
A careful choice of the production target is very important for SUPER-FRS experiments at FAIR. A windowless liquid Lithium jet is one of the target configurations that are discussed [1]. Focusing of the primary beam improves the resolution of the isotopes and the transmission of the secondary beam, but can destroy the target. Analysis of the target behavior after the beam irradiation provides t...
متن کاملSimulations of the Beam Stripper for the Super–FRS Production Target in a Fast Extraction Mode∗
Previously, we reported 3D hydrodynamic simulations of interaction of a wheel shaped solid graphite Super–FRS production target with the SIS100, 1.5 GeV/u uranium beam [1]. These simulations have shown that the target will survive (retain its elastic properties) for a beam intensity of up to 3x10 ions per 50 ns long bunch if one uses a focal spot size that is characterized with σ = 4 mm. Howeve...
متن کاملSimulations of a Liquid Jet Target Using a Fast Extraction Scheme for the Super-FRS
In addition to a rotating wheel shaped graphite target irradiated by an extended beam spot [1], a windowless liquid metal jet target may be considered for the high beam intensity of the order of 10 ions of 1 GeV/u uranium delivered in a 50 ns long, single bunch to the Super-FRS. Different materials that can be used to construct the target include Li, Na, Ga, Hg and Pb. Lower-Z targets are prefe...
متن کاملIon-optical design of the focusing system in front of the Super-FRS target
The new heavy-ion synchrotron SIS100 [2] will provide high-intensity beams at relativistic energies in the rigidity range (27-100) Tm. In order to produce secondary fragments, the ion beam will interact with the Super-FRS production target, where the beam spot is required to be about (1 × 2) mm in size. Therefore it is necessary to perform careful investigations of the transport beam line betwe...
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ژورنال
عنوان ژورنال: International Journal of Advanced Robotic Systems
سال: 2013
ISSN: 1729-8814,1729-8814
DOI: 10.5772/57073