Accidental events implying direct beam impacts on collimators are of the utmost importance as they may lead to serious limitations of the overall LHC Performance. In order to assess damage threshold of components impacted by high energy density beams, entailing changes of phase and extreme pressures, state-of-the-art numerical simulation methods are required. In this paper, a review of the different dynamic response regimes induced by particle beams is given along with an indication of the most suited tools to treat each regime. Particular attention is paid to the most critical case, that of shock waves, for which standard Finite Element codes are totally unfit. A novel category of numerical tools, named Hydrocodes, has been adapted and used to analyse the consequences of an asynchronous beam abort on Phase 1 Tertiary Collimators (TCT). A number of simulations has been carried out with varying beam energy, number of bunches and bunch sizes allowing to identify different damage levels for the TCT up to catastrophic failure.

LIMITS FOR BEAM INDUCED DAMAGE: RECKLESS OR TOO CAUTIOUS? / A., Bertarelli; V., Boccone; Carra, Federico; F., Cerutti; Dallocchio, Alessandro; N., Mariani; Peroni, Lorenzo; Scapin, Martina. - ELETTRONICO. - (2011). (Intervento presentato al convegno Proceedings of Chamonix 2011 workshop on LHC performance tenutosi a Chamonix (F) nel 24-28 gennaio 2011).

LIMITS FOR BEAM INDUCED DAMAGE: RECKLESS OR TOO CAUTIOUS?

CARRA, FEDERICO;DALLOCCHIO, ALESSANDRO;PERONI, LORENZO;SCAPIN, MARTINA
2011

Abstract

Accidental events implying direct beam impacts on collimators are of the utmost importance as they may lead to serious limitations of the overall LHC Performance. In order to assess damage threshold of components impacted by high energy density beams, entailing changes of phase and extreme pressures, state-of-the-art numerical simulation methods are required. In this paper, a review of the different dynamic response regimes induced by particle beams is given along with an indication of the most suited tools to treat each regime. Particular attention is paid to the most critical case, that of shock waves, for which standard Finite Element codes are totally unfit. A novel category of numerical tools, named Hydrocodes, has been adapted and used to analyse the consequences of an asynchronous beam abort on Phase 1 Tertiary Collimators (TCT). A number of simulations has been carried out with varying beam energy, number of bunches and bunch sizes allowing to identify different damage levels for the TCT up to catastrophic failure.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11583/2422535
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