Open AccessThe “Environmental” Challenges: Impact of Radiation on Machine Components
Author(s) -
M. Brügger,
F. Cerutti,
Luigi Salvatore Esposito
Publication year - 2015
Publication title -
advanced series on directions in high energy physics
Language(s) - English
Resource type - Book series
ISSN - 1793-1339
DOI - 10.1142/9789814675475_0010
Subject(s) - context (archaeology) , large hadron collider , electromagnetic shielding , reliability engineering , ionizing radiation , reliability (semiconductor) , monte carlo method , radiation , radiation protection , upgrade , nuclear engineering , environmental science , computer science , engineering , physics , nuclear physics , irradiation , electrical engineering , mathematics , geography , power (physics) , statistics , archaeology , quantum mechanics , operating system
The High Luminosity LHC upgrade poses demanding requirements in terms of energy deposition, in particular around the high luminosity experiments where the Inner Triplet elements and the separation dipole will be exposed to unprecedented levels of radiation, challenging their reliability and lifetime. Dedicated Monte Carlo studies have been conducted in order to characterize the debris-machine interaction and define a suitable shielding. Moreover, also the areas adjacent to the LHC tunnel, where the installation of electronics equipment is envisaged, will be significantly impacted. In this context, cumulative damage (Total Ionizing Dose and/or Non-Ionizing Energy Loss) and stochastic effects have to be taken into account in an appropriate Radiation Hardness Assurance strategy, including the specification of the radiation environment, required test and qualification procedures, and corresponding radiation monitoring.
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