CERN Yellow Reports: Monographs, Vol. 2 (2022): Conceptual design of an experiment at the FCC-hh, a future 100 TeV hadron collider

Mangano, Michelangelo L.; Werner Riegler( CERN, )(ed. ).; Aleksa( CERN ), M.; P. P. Allport( Birmingham U. ).,; Asai( CERN ), S.; Ball( CERN ), A.; Besana( CERN and PSI, M. I.; Villigen, ); Bielert( CERN ), E. R.; Bristol (main) ), S. Bologna( CERN and U.; E. Boos( Lomonosov Moscow State U. ).,; L. Borgonovi( Bologna U. ).,; R. Bosley( Birmingham U. ).,; Braibant, Sylvie; Bristol (main) ), J. Brooke( U.; Cerutti( CERN ), F.; Chekanov( Argonne ), S.; Cuire( CERN ), B.; Da Silva( CERN ), H. F.; Dannheim( CERN ), D.; Denisov( Brookhaven and Fermilab ), D. S.; and INFN, B. Di Micco( Rome III U.; Rome3, ); Drasal( CERN ), Z.; L. Dudko( Lomonosov Moscow State U. ).,; Elsing( CERN ), M.; J. Faltova( CERN and Charles U. ).,; W. J. Fawcett( Geneva U. and Cambridge U. ).,; E. Fontanesi( Bologna U. ).,; Fournier( ONERA, D.; Toulouse, ); Gaddi( CERN ), A.; Gentil( LIP, J.; Lisbon, ); Gerwig( CERN ), J.; Gianotti( CERN ), F.; Gonçalo( LIP, R.; Lisbon and Coimbra, U. ).; Gouskos( CERN ), L.; Gray( CERN and UC, H.; Berkeley, ); Harris( MIT ), P. C.; Hegner( CERN ), B.; Helsens( CERN ), C.; Henriques Correia( CERN ), A. M.; Hrdinka( CERN ), J.; Jamin( CERN ), D.; V. Klyukhin( Lomonosov Moscow State U. ).,; Karyukhin( Dubna, A.; Jinr, ); Kieseler( CERN ), J.; Kortner( Munich, O.; Max Planck, Inst. ).; and Fermilab ), A. Kotwal( Duke U.; Kroha( Munich, H.; Max Planck, Inst. ).; Lingemann( CERN ), J.; P. Mandrik( Kurchatov Inst.,; Moscow, ); Mangano( CERN ), M.; Mannelli( CERN ), P.; Mentink( CERN ), M.; Moortgat( CERN ), F.; Neubuser( CERN and TIFPA-INFN, C.; Trento, ); Ortona( Ecole Polytechnique ), G.; Perez Codina( TRIUMF ), E.; Pontecorvo( CERN ), L.; A. Price( Birmingham U. ).,; Riegler( CERN ), W.; Roloff( CERN ), P. G.; Saito( CERN ), M.; Salzburger( CERN ), A.; Sawada( CERN ), R.; J. S. Schliwinski( Humboldt U.,; Berlin (main), ); Selvaggi( CERN ), M.; O. Solovyanov( CERN and Kurchatov Inst.,; Moscow, ); R. Stein( York U.,; England, ); A. Sznajder( Rio de Janeiro Federal U. ).,; Ten Kate( CERN ), H.; Terashi( CERN ), K.; Testa( Ecole Polytechnique ), M.; Topiline( Dubna, N.; Jinr, ); Völkl( CERN ), V.; Verducci( Ecole Polytechnique ), M.; N. Watson( Birmingham U. ).,; Widorski( CERN ), M.; A. Winter( Birmingham U. ).,; Young( SLAC ), C.; Zaborowska( CERN ), A.

doi:10.23731/cyrm-2022-002

This report summarises the study of a general purpose detector for the FCC-hh,a 100 TeV hadron collider with peak luminosity of3·1035cm−2s−1. A pileupof 1000 pp collisions per bunch-crossing, highly boosted objects as well asradiation levels up to1018hadrons/cm2are just three of the challenges thatsuch a collider poses. The general specifications for such a detector in termsof resolution, granularity, acceptance and radiation tolerance are discussed. Aspecific detector layout is proposed and its performance is simulated, discussedand parameterized. This parameterization is then used to evaluate the perfor-mance for key benchmark physics topics, such as the precision measurementof the Higgs boson couplings and the discovery reach for several frameworksbeyond the Standard Model

Michelangelo L. Mangano, W.R. (2022). CERN Yellow Reports: Monographs, Vol. 2 (2022): Conceptual design of an experiment at the FCC-hh, a future 100 TeV hadron collider. Geneva : CERN [10.23731/cyrm-2022-002].

CERN Yellow Reports: Monographs, Vol. 2 (2022): Conceptual design of an experiment at the FCC-hh, a future 100 TeV hadron collider

Michelangelo L. Mangano;Werner Riegler( CERN )(ed. );M. Aleksa( CERN );P. P. Allport( Birmingham U. );S. Asai( CERN );A. Ball( CERN );M. I. Besana( CERN and PSI;Villigen );E. R. Bielert( CERN );E. Boos( Lomonosov Moscow State U. );L. Borgonovi( Bologna U. );R. Bosley( Birmingham U. );Sylvie Braibant;J. Brooke( U. Bristol (main) );F. Cerutti( CERN );S. Chekanov( Argonne );B. Cuire( CERN );H. F. Da Silva( CERN );D. Dannheim( CERN );B. Di Micco( Rome III U. and INFN;Rome3 );Z. Drasal( CERN );L. Dudko( Lomonosov Moscow State U. );M. Elsing( CERN );J. Faltova( CERN and Charles U. );E. Fontanesi( Bologna U. );D. Fournier( ONERA;Toulouse );A. Gaddi( CERN );J. Gentil( LIP;Lisbon );J. Gerwig( CERN );F. Gianotti( CERN );R. Gonçalo( LIP;Lisbon and Coimbra U. );L. Gouskos( CERN );H. Gray( CERN and UC;Berkeley );P. C. Harris( MIT );B. Hegner( CERN );C. Helsens( CERN );A. M. Henriques Correia( CERN );J. Hrdinka( CERN );D. Jamin( CERN );A. Karyukhin( Dubna;JINR );J. Kieseler( CERN );O. Kortner( Munich;Max Planck Inst. );A. Kotwal( Duke U. and Fermilab );H. Kroha( Munich;Max Planck Inst. );J. Lingemann( CERN );P. Mandrik( Kurchatov Inst.;Moscow );M. Mangano( CERN );P. Mannelli( CERN );M. Mentink( CERN );F. Moortgat( CERN );C. Neubuser( CERN and TIFPA-INFN;Trento );G. Ortona( Ecole Polytechnique );E. Perez Codina( TRIUMF );L. Pontecorvo( CERN );A. Price( Birmingham U. );W. Riegler( CERN );P. G. Roloff( CERN );M. Saito( CERN );A. Salzburger( CERN );R. Sawada( CERN );J. S. Schliwinski( Humboldt U.;Berlin (main) );M. Selvaggi( CERN );Moscow );R. Stein( York U.;England );H. Ten Kate( CERN );K. Terashi( CERN );M. Testa( Ecole Polytechnique );N. Topiline( Dubna;JINR );V. Völkl( CERN );M. Verducci( Ecole Polytechnique );N. Watson( Birmingham U. );M. Widorski( CERN );A. Winter( Birmingham U. );C. Young( SLAC );A. Zaborowska( CERN )

2022

Abstract

This report summarises the study of a general purpose detector for the FCC-hh,a 100 TeV hadron collider with peak luminosity of3·1035cm−2s−1. A pileupof 1000 pp collisions per bunch-crossing, highly boosted objects as well asradiation levels up to1018hadrons/cm2are just three of the challenges thatsuch a collider poses. The general specifications for such a detector in termsof resolution, granularity, acceptance and radiation tolerance are discussed. Aspecific detector layout is proposed and its performance is simulated, discussedand parameterized. This parameterization is then used to evaluate the perfor-mance for key benchmark physics topics, such as the precision measurementof the Higgs boson couplings and the discovery reach for several frameworksbeyond the Standard Model

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	Anno
	
				2022
			
	Numero di pagine
	
				294
			
	Codice DOI
	
				https://dx.doi.org/10.23731/cyrm-2022-002
			
	Citazione
	
				Michelangelo L. Mangano, W.R. (2022). CERN Yellow Reports: Monographs, Vol. 2 (2022): Conceptual design of an experiment at the FCC-hh, a future 100 TeV hadron collider. Geneva : CERN [10.23731/cyrm-2022-002].
			
	Tutti gli autori
	
						Michelangelo L. Mangano
    , Werner Riegler(
        CERN
    )(ed.)
    , M. Aleksa(
        CERN
    )
    , P.P. Allport(
        Birmingh...espandi

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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/954666

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