Monte Carlo Studies for the Radiation Shielding Design of LCLS-II | Zendy

Shanjie Xiao | Zendy; S. Mao | Zendy; Ludovic Nicolas | Zendy; S. Rokni | Zendy; Mario Santana Leitner | Zendy

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Monte Carlo Studies for the Radiation Shielding Design of LCLS-II

Author(s) -

Shanjie Xiao,

S. Mao,

Ludovic Nicolas,

S. Rokni,

Mario Santana Leitner

Publication year - 2013

Language(s) - English

Resource type - Reports

DOI - 10.2172/1060215

Subject(s) - electromagnetic shielding , monte carlo method , radiation , radiation shielding , nuclear physics , detector , physics , computational physics , nuclear engineering , electron , energy (signal processing) , high energy , medical physics , optics , engineering , particle physics , statistics , mathematics , quantum mechanics

Intensive Monte Carlo simulations performed with state-of-the-art computation codes are applied to the radiation shielding design of LCLS-II, which will be the extension of Linac Coherent Light Source (LCLS) at SLAC and will use the middle one-third of SLAC two-mile Linac. This paper describes the Monte Carlo studies of the first and last system where electron beams are involved, namely the LCLS-II Injector and the X-ray Transport and Diagnostics System (XTOD).

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