Jet substructure variables with the SiFCC detector at 100 TeV

C. H. Yeh; S. V. Chekanov; A. V. Kotwal; J. Proudfoot; S. Sen; N. V. Tran; S. S. Yu

Jet substructure variables with the SiFCC detector at 100 TeV

C. H. Yeh, S. V. Chekanov, A. V. Kotwal, J. Proudfoot, S. Sen, N. V. Tran, S. S. Yu

Research output: Contribution to journal › Conference article › peer-review

Abstract

Future experiments beyond the LHC era will measure high-momentum bosons (W, Z, H) and top quarks with strongly collimated decay products that form hadronic jets. This paper describes the studies of the performance of jet substructure variables using the Geant4 simulation of a detector designed for high energy pp collisions at a 100 TeV collider. The two-prong jets from Z′ → WW and three-prong jets from Z′ → tt&tild; are compared with the background from light quark jets, assuming Z′ masses in the range 5 - 40 TeV. Our results indicate that the performance of jetsubstructure reconstruction improves with reducing transverse cell sizes of a hadronic calorimeter from Δη × Δφ = 0:087×0:087 to 0:022×0:022 in most cases.

Original language	English
Article number	905
Journal	Proceedings of Science
Volume	340
State	Published - 2019
Event	39th International Conference on High Energy Physics, ICHEP 2018 - Seoul, Korea, Republic of Duration: 4 Jul 2018 → 11 Jul 2018

Cite this

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title = "Jet substructure variables with the SiFCC detector at 100 TeV",

abstract = "Future experiments beyond the LHC era will measure high-momentum bosons (W, Z, H) and top quarks with strongly collimated decay products that form hadronic jets. This paper describes the studies of the performance of jet substructure variables using the Geant4 simulation of a detector designed for high energy pp collisions at a 100 TeV collider. The two-prong jets from Z′ → WW and three-prong jets from Z′ → tt&tild; are compared with the background from light quark jets, assuming Z′ masses in the range 5 - 40 TeV. Our results indicate that the performance of jetsubstructure reconstruction improves with reducing transverse cell sizes of a hadronic calorimeter from Δη × Δφ = 0:087×0:087 to 0:022×0:022 in most cases.",

author = "Yeh, {C. H.} and Chekanov, {S. V.} and Kotwal, {A. V.} and J. Proudfoot and S. Sen and Tran, {N. V.} and Yu, {S. S.}",

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TY - JOUR

T1 - Jet substructure variables with the SiFCC detector at 100 TeV

AU - Yeh, C. H.

AU - Chekanov, S. V.

AU - Kotwal, A. V.

AU - Proudfoot, J.

AU - Sen, S.

AU - Tran, N. V.

AU - Yu, S. S.

PY - 2019

Y1 - 2019

N2 - Future experiments beyond the LHC era will measure high-momentum bosons (W, Z, H) and top quarks with strongly collimated decay products that form hadronic jets. This paper describes the studies of the performance of jet substructure variables using the Geant4 simulation of a detector designed for high energy pp collisions at a 100 TeV collider. The two-prong jets from Z′ → WW and three-prong jets from Z′ → tt&tild; are compared with the background from light quark jets, assuming Z′ masses in the range 5 - 40 TeV. Our results indicate that the performance of jetsubstructure reconstruction improves with reducing transverse cell sizes of a hadronic calorimeter from Δη × Δφ = 0:087×0:087 to 0:022×0:022 in most cases.

AB - Future experiments beyond the LHC era will measure high-momentum bosons (W, Z, H) and top quarks with strongly collimated decay products that form hadronic jets. This paper describes the studies of the performance of jet substructure variables using the Geant4 simulation of a detector designed for high energy pp collisions at a 100 TeV collider. The two-prong jets from Z′ → WW and three-prong jets from Z′ → tt&tild; are compared with the background from light quark jets, assuming Z′ masses in the range 5 - 40 TeV. Our results indicate that the performance of jetsubstructure reconstruction improves with reducing transverse cell sizes of a hadronic calorimeter from Δη × Δφ = 0:087×0:087 to 0:022×0:022 in most cases.

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M3 - 會議論文

AN - SCOPUS:85084188552

SN - 1824-8039

VL - 340

JO - Proceedings of Science

JF - Proceedings of Science

M1 - 905

T2 - 39th International Conference on High Energy Physics, ICHEP 2018

Y2 - 4 July 2018 through 11 July 2018

ER -

Jet substructure variables with the SiFCC detector at 100 TeV

Abstract

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