稳健性(进化)
大型强子对撞机
强度(物理)
梁(结构)
环境科学
计算机科学
物理
光学
核物理学
生物
生物化学
基因
作者
C. Sharp,A. Romero Francia,Rui Franqueira Ximenes,M. Calviani,J. Grenard,Giuseppe Mazzola,Luigi Salvatore Esposito,J. Bernhard,Antonio Lafuente Mazuecos,F. Sánchez Galán,Michael Lazzaroni,M. Brügger,Rebecca Ramjiawan,M.A Fraser
标识
DOI:10.1088/1742-6596/2687/8/082038
摘要
Abstract CERN’s North Area comprises several target and experimental systems and is a zone of interest for future development. Provision of beam to this area relies upon several beam-intercepting devices located in various branched transfer lines from the Super Proton Synchrotron. In several lines, these include a primary production target system of beryllium plates followed by a combined collimation, attenuation and dump device made from a set of aluminum, copper and iron blocks and known as a ‘TAX’ (Target Attenuator [for] eXperimental areas). These may operate in a range of configurations depending on experimental needs. Future operational regimes with higher beam intensities (increased from a current specification of 1.5× 10 13 to 4.0× 10 13 p + /pulse), shorter pulse times (4.8 s reduced to 1.2 s), greater repetition rates (14.4 s cycle time reduced to 7.2 s) and ten times the annual intensity place more stringent thermo-structural demands on these existing devices, beyond their original specification. This contribution outlines the engineering analysis, including beam-matter interaction studies and thermo-structural simulations, carried out to assess their robustness under such conditions.
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