Muon energy estimate through multiple scattering with the MACRO detector

M. Ambrosio; R. Antolini; G. Auriemma; D. Bakari; A. Baldini; G. C. Barbarino; B. C. Barish; G. Battistoni; Y. Becherini; R. Bellotti; C. Bemporad; P. Bernardini; H. Bilokon; C. Bloise; C. Bower; M. Brigida; S. Bussino; F. Cafagna; M. Calicchio; D. Campana; A. Candela; M. Carboni; R. Caruso; F. Cassese; S. Cecchini; F. Cei; V. Chiarella; B. C. Choudhary; S. Coutu; M. Cozzi; G. De Cataldo; M. De Deo; H. Dekhissi; C. De Marzo; I. De Mitri; J. Derkaoui; M. De Vincenzi; A. Di Credico; M. Dincecco; O. Erriquez; C. Favuzzi; C. Forti; P. Fusco; G. Giacomelli; G. Giannini; N. Giglietto; M. Giorgini; M. Grassi; L. Gray; A. Grillo; F. Guarino; C. Gustavino; A. Habig; K. Hanson; R. Heinz; E. Iarocci; E. Katsavounidis; I. Katsavounidis; E. Kearns; H. Kim; S. Kyriazopoulou; E. Lamanna; C. Lane; D. S. Levin; M. Lindozzi; P. Lipari; N. P. Longley; M. J. Longo; F. Loparco; F. Maaroufi; G. Mancarella; G. Mandrioli; A. Margiotta; A. Marini; D. Martello; A. Marzari-Chiesa; M. N. Mazziotta; D. G. Michael; P. Monacelli; T. Montaruli; M. Monteno; S. Mufson; J. Musser; D. Nicolo; R. Nolty; C. Orth; G. Osteria; O. Palamara; V. Patera; L. Patrizii; R. Pazzi; C. W. Peck; L. Perronj; S. Petrera; P. Pistilli; V. Popa; A. Raino; J. Reynoldson; F. Ronga; A. Rrhioua; C. Satriano; E. Scapparone; K. Scholberg; A. Sciubba; P. Serra; M. Sioli; G. Sirri; M. Sitta; P. Spinelli; M. Spinetti; M. Spurio; R. Steinberg; J. L. Stone; L. R. Sulak; A. Surdo; G. Tarle; E. Tatananni; V. Togo; M. Vakili; C. W. Walter; R. Webb

doi:10.1016/S0168-9002(02)01413-4

Muon energy estimate through multiple scattering with the MACRO detector

M. Ambrosio, R. Antolini, G. Auriemma, D. Bakari, A. Baldini, G. C. Barbarino, B. C. Barish, G. Battistoni, Y. Becherini, R. Bellotti, C. Bemporad, P. Bernardini, H. Bilokon, C. Bloise, C. Bower, M. Brigida, S. Bussino, F. Cafagna, M. Calicchio, D. CampanaA. Candela, M. Carboni, R. Caruso, F. Cassese, S. Cecchini, F. Cei, V. Chiarella, B. C. Choudhary, S. Coutu, M. Cozzi, G. De Cataldo, M. De Deo, H. Dekhissi, C. De Marzo, I. De Mitri, J. Derkaoui, M. De Vincenzi, A. Di Credico, M. Dincecco, O. Erriquez, C. Favuzzi, C. Forti, P. Fusco, G. Giacomelli, G. Giannini, N. Giglietto, M. Giorgini, M. Grassi, L. Gray, A. Grillo, F. Guarino, C. Gustavino, A. Habig, K. Hanson, R. Heinz, E. Iarocci, E. Katsavounidis, I. Katsavounidis, E. Kearns, H. Kim, S. Kyriazopoulou, E. Lamanna, C. Lane, D. S. Levin, M. Lindozzi, P. Lipari, N. P. Longley, M. J. Longo, F. Loparco, F. Maaroufi, G. Mancarella, G. Mandrioli, A. Margiotta, A. Marini, D. Martello, A. Marzari-Chiesa, M. N. Mazziotta, D. G. Michael, P. Monacelli, T. Montaruli, M. Monteno, S. Mufson, J. Musser, D. Nicolo, R. Nolty, C. Orth, G. Osteria, O. Palamara, V. Patera, L. Patrizii, R. Pazzi, C. W. Peck, L. Perronj, S. Petrera, P. Pistilli, V. Popa, A. Raino, J. Reynoldson, F. Ronga, A. Rrhioua, C. Satriano, E. Scapparone, K. Scholberg, A. Sciubba, P. Serra, M. Sioli, G. Sirri, M. Sitta, P. Spinelli, M. Spinetti, M. Spurio, R. Steinberg, J. L. Stone, L. R. Sulak, A. Surdo, G. Tarle, E. Tatananni, V. Togo, M. Vakili, C. W. Walter, R. Webb

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26 Scopus citations

Abstract

Muon energy measurement represents an important issue for any experiment addressing neutrino-induced up-going muon studies. Since the neutrino oscillation probability depends on the neutrino energy, a measurement of the muon energy adds an important piece of information concerning the neutrino system. We show in this paper how the MACRO limited streamer tube system can be operated in drift mode by using the TDCs included in the QTPs, an electronics designed for magnetic monopole search. An improvement of the space resolution is obtained, through an analysis of the multiple scattering of muon tracks as they pass through our detector. This information can be used further to obtain an estimate of the energy of muons crossing the detector. Here we present the results of two dedicated tests, performed at CERN PS-T9 and SPS-X7 beam lines, to provide a full check of the electronics and to exploit the feasibility of such a multiple scattering analysis. We show that by using a neural network approach, we are able to reconstruct the muon energy for E_μ<40 GeV. The test beam data provide an absolute energy calibration, which allows us to apply this method to MACRO data.

Original language	English (US)
Pages (from-to)	376-386
Number of pages	11
Journal	Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment
Volume	492
Issue number	3
DOIs	https://doi.org/10.1016/S0168-9002(02)01413-4
State	Published - Oct 21 2002

All Science Journal Classification (ASJC) codes

Nuclear and High Energy Physics
Instrumentation

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10.1016/S0168-9002(02)01413-4

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Ambrosio, M., Antolini, R., Auriemma, G., Bakari, D., Baldini, A., Barbarino, G. C., Barish, B. C., Battistoni, G., Becherini, Y., Bellotti, R., Bemporad, C., Bernardini, P., Bilokon, H., Bloise, C., Bower, C., Brigida, M., Bussino, S., Cafagna, F., Calicchio, M., ... Webb, R. (2002). Muon energy estimate through multiple scattering with the MACRO detector. Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 492(3), 376-386. https://doi.org/10.1016/S0168-9002(02)01413-4

@article{053eda880c7f4ce8a95ddbf2f7959f70,

title = "Muon energy estimate through multiple scattering with the MACRO detector",

abstract = "Muon energy measurement represents an important issue for any experiment addressing neutrino-induced up-going muon studies. Since the neutrino oscillation probability depends on the neutrino energy, a measurement of the muon energy adds an important piece of information concerning the neutrino system. We show in this paper how the MACRO limited streamer tube system can be operated in drift mode by using the TDCs included in the QTPs, an electronics designed for magnetic monopole search. An improvement of the space resolution is obtained, through an analysis of the multiple scattering of muon tracks as they pass through our detector. This information can be used further to obtain an estimate of the energy of muons crossing the detector. Here we present the results of two dedicated tests, performed at CERN PS-T9 and SPS-X7 beam lines, to provide a full check of the electronics and to exploit the feasibility of such a multiple scattering analysis. We show that by using a neural network approach, we are able to reconstruct the muon energy for Eμ<40 GeV. The test beam data provide an absolute energy calibration, which allows us to apply this method to MACRO data.",

author = "M. Ambrosio and R. Antolini and G. Auriemma and D. Bakari and A. Baldini and Barbarino, {G. C.} and Barish, {B. C.} and G. Battistoni and Y. Becherini and R. Bellotti and C. Bemporad and P. Bernardini and H. Bilokon and C. Bloise and C. Bower and M. Brigida and S. Bussino and F. Cafagna and M. Calicchio and D. Campana and A. Candela and M. Carboni and R. Caruso and F. Cassese and S. Cecchini and F. Cei and V. Chiarella and Choudhary, {B. C.} and S. Coutu and M. Cozzi and {De Cataldo}, G. and {De Deo}, M. and H. Dekhissi and {De Marzo}, C. and {De Mitri}, I. and J. Derkaoui and {De Vincenzi}, M. and {Di Credico}, A. and M. Dincecco and O. Erriquez and C. Favuzzi and C. Forti and P. Fusco and G. Giacomelli and G. Giannini and N. Giglietto and M. Giorgini and M. Grassi and L. Gray and A. Grillo and F. Guarino and C. Gustavino and A. Habig and K. Hanson and R. Heinz and E. Iarocci and E. Katsavounidis and I. Katsavounidis and E. Kearns and H. Kim and S. Kyriazopoulou and E. Lamanna and C. Lane and Levin, {D. S.} and M. Lindozzi and P. Lipari and Longley, {N. P.} and Longo, {M. J.} and F. Loparco and F. Maaroufi and G. Mancarella and G. Mandrioli and A. Margiotta and A. Marini and D. Martello and A. Marzari-Chiesa and Mazziotta, {M. N.} and Michael, {D. G.} and P. Monacelli and T. Montaruli and M. Monteno and S. Mufson and J. Musser and D. Nicolo and R. Nolty and C. Orth and G. Osteria and O. Palamara and V. Patera and L. Patrizii and R. Pazzi and Peck, {C. W.} and L. Perronj and S. Petrera and P. Pistilli and V. Popa and A. Raino and J. Reynoldson and F. Ronga and A. Rrhioua and C. Satriano and E. Scapparone and K. Scholberg and A. Sciubba and P. Serra and M. Sioli and G. Sirri and M. Sitta and P. Spinelli and M. Spinetti and M. Spurio and R. Steinberg and Stone, {J. L.} and Sulak, {L. R.} and A. Surdo and G. Tarle and E. Tatananni and V. Togo and M. Vakili and Walter, {C. W.} and R. Webb",

note = "Funding Information: We gratefully acknowledge the support of the Director and of the staff of the Laboratori Nazionali del Gran Sasso and the invaluable assistance of the technical staff of the Institutions participating in the experiment. We thank the Istituto Nazionale di Fisica Nucleare (INFN), the US Department of Energy and the US National Science Foundation for their generous support of the MACRO experiment. We thank INFN, ICTP (Trieste), WorldLab and NATO for providing fellowships and grants (FAI) for non-Italian citizens.",

year = "2002",

month = oct,

day = "21",

doi = "10.1016/S0168-9002(02)01413-4",

language = "English (US)",

volume = "492",

pages = "376--386",

journal = "Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment",

issn = "0168-9002",

publisher = "Elsevier B.V.",

number = "3",

}

Ambrosio, M, Antolini, R, Auriemma, G, Bakari, D, Baldini, A, Barbarino, GC, Barish, BC, Battistoni, G, Becherini, Y, Bellotti, R, Bemporad, C, Bernardini, P, Bilokon, H, Bloise, C, Bower, C, Brigida, M, Bussino, S, Cafagna, F, Calicchio, M, Campana, D, Candela, A, Carboni, M, Caruso, R, Cassese, F, Cecchini, S, Cei, F, Chiarella, V, Choudhary, BC, Coutu, S, Cozzi, M, De Cataldo, G, De Deo, M, Dekhissi, H, De Marzo, C, De Mitri, I, Derkaoui, J, De Vincenzi, M, Di Credico, A, Dincecco, M, Erriquez, O, Favuzzi, C, Forti, C, Fusco, P, Giacomelli, G, Giannini, G, Giglietto, N, Giorgini, M, Grassi, M, Gray, L, Grillo, A, Guarino, F, Gustavino, C, Habig, A, Hanson, K, Heinz, R, Iarocci, E, Katsavounidis, E, Katsavounidis, I, Kearns, E, Kim, H, Kyriazopoulou, S, Lamanna, E, Lane, C, Levin, DS, Lindozzi, M, Lipari, P, Longley, NP, Longo, MJ, Loparco, F, Maaroufi, F, Mancarella, G, Mandrioli, G, Margiotta, A, Marini, A, Martello, D, Marzari-Chiesa, A, Mazziotta, MN, Michael, DG, Monacelli, P, Montaruli, T, Monteno, M, Mufson, S, Musser, J, Nicolo, D, Nolty, R, Orth, C, Osteria, G, Palamara, O, Patera, V, Patrizii, L, Pazzi, R, Peck, CW, Perronj, L, Petrera, S, Pistilli, P, Popa, V, Raino, A, Reynoldson, J, Ronga, F, Rrhioua, A, Satriano, C, Scapparone, E, Scholberg, K, Sciubba, A, Serra, P, Sioli, M, Sirri, G, Sitta, M, Spinelli, P, Spinetti, M, Spurio, M, Steinberg, R, Stone, JL, Sulak, LR, Surdo, A, Tarle, G, Tatananni, E, Togo, V, Vakili, M, Walter, CW & Webb, R 2002, 'Muon energy estimate through multiple scattering with the MACRO detector', Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, vol. 492, no. 3, pp. 376-386. https://doi.org/10.1016/S0168-9002(02)01413-4

TY - JOUR

T1 - Muon energy estimate through multiple scattering with the MACRO detector

AU - Ambrosio, M.

AU - Antolini, R.

AU - Auriemma, G.

AU - Bakari, D.

AU - Baldini, A.

AU - Barbarino, G. C.

AU - Barish, B. C.

AU - Battistoni, G.

AU - Becherini, Y.

AU - Bellotti, R.

AU - Bemporad, C.

AU - Bernardini, P.

AU - Bilokon, H.

AU - Bloise, C.

AU - Bower, C.

AU - Brigida, M.

AU - Bussino, S.

AU - Cafagna, F.

AU - Calicchio, M.

AU - Campana, D.

AU - Candela, A.

AU - Carboni, M.

AU - Caruso, R.

AU - Cassese, F.

AU - Cecchini, S.

AU - Cei, F.

AU - Chiarella, V.

AU - Choudhary, B. C.

AU - Coutu, S.

AU - Cozzi, M.

AU - De Cataldo, G.

AU - De Deo, M.

AU - Dekhissi, H.

AU - De Marzo, C.

AU - De Mitri, I.

AU - Derkaoui, J.

AU - De Vincenzi, M.

AU - Di Credico, A.

AU - Dincecco, M.

AU - Erriquez, O.

AU - Favuzzi, C.

AU - Forti, C.

AU - Fusco, P.

AU - Giacomelli, G.

AU - Giannini, G.

AU - Giglietto, N.

AU - Giorgini, M.

AU - Grassi, M.

AU - Gray, L.

AU - Grillo, A.

AU - Guarino, F.

AU - Gustavino, C.

AU - Habig, A.

AU - Hanson, K.

AU - Heinz, R.

AU - Iarocci, E.

AU - Katsavounidis, E.

AU - Katsavounidis, I.

AU - Kearns, E.

AU - Kim, H.

AU - Kyriazopoulou, S.

AU - Lamanna, E.

AU - Lane, C.

AU - Levin, D. S.

AU - Lindozzi, M.

AU - Lipari, P.

AU - Longley, N. P.

AU - Longo, M. J.

AU - Loparco, F.

AU - Maaroufi, F.

AU - Mancarella, G.

AU - Mandrioli, G.

AU - Margiotta, A.

AU - Marini, A.

AU - Martello, D.

AU - Marzari-Chiesa, A.

AU - Mazziotta, M. N.

AU - Michael, D. G.

AU - Monacelli, P.

AU - Montaruli, T.

AU - Monteno, M.

AU - Mufson, S.

AU - Musser, J.

AU - Nicolo, D.

AU - Nolty, R.

AU - Orth, C.

AU - Osteria, G.

AU - Palamara, O.

AU - Patera, V.

AU - Patrizii, L.

AU - Pazzi, R.

AU - Peck, C. W.

AU - Perronj, L.

AU - Petrera, S.

AU - Pistilli, P.

AU - Popa, V.

AU - Raino, A.

AU - Reynoldson, J.

AU - Ronga, F.

AU - Rrhioua, A.

AU - Satriano, C.

AU - Scapparone, E.

AU - Scholberg, K.

AU - Sciubba, A.

AU - Serra, P.

AU - Sioli, M.

AU - Sirri, G.

AU - Sitta, M.

AU - Spinelli, P.

AU - Spinetti, M.

AU - Spurio, M.

AU - Steinberg, R.

AU - Stone, J. L.

AU - Sulak, L. R.

AU - Surdo, A.

AU - Tarle, G.

AU - Tatananni, E.

AU - Togo, V.

AU - Vakili, M.

AU - Walter, C. W.

AU - Webb, R.

N1 - Funding Information: We gratefully acknowledge the support of the Director and of the staff of the Laboratori Nazionali del Gran Sasso and the invaluable assistance of the technical staff of the Institutions participating in the experiment. We thank the Istituto Nazionale di Fisica Nucleare (INFN), the US Department of Energy and the US National Science Foundation for their generous support of the MACRO experiment. We thank INFN, ICTP (Trieste), WorldLab and NATO for providing fellowships and grants (FAI) for non-Italian citizens.

PY - 2002/10/21

Y1 - 2002/10/21

N2 - Muon energy measurement represents an important issue for any experiment addressing neutrino-induced up-going muon studies. Since the neutrino oscillation probability depends on the neutrino energy, a measurement of the muon energy adds an important piece of information concerning the neutrino system. We show in this paper how the MACRO limited streamer tube system can be operated in drift mode by using the TDCs included in the QTPs, an electronics designed for magnetic monopole search. An improvement of the space resolution is obtained, through an analysis of the multiple scattering of muon tracks as they pass through our detector. This information can be used further to obtain an estimate of the energy of muons crossing the detector. Here we present the results of two dedicated tests, performed at CERN PS-T9 and SPS-X7 beam lines, to provide a full check of the electronics and to exploit the feasibility of such a multiple scattering analysis. We show that by using a neural network approach, we are able to reconstruct the muon energy for Eμ<40 GeV. The test beam data provide an absolute energy calibration, which allows us to apply this method to MACRO data.

AB - Muon energy measurement represents an important issue for any experiment addressing neutrino-induced up-going muon studies. Since the neutrino oscillation probability depends on the neutrino energy, a measurement of the muon energy adds an important piece of information concerning the neutrino system. We show in this paper how the MACRO limited streamer tube system can be operated in drift mode by using the TDCs included in the QTPs, an electronics designed for magnetic monopole search. An improvement of the space resolution is obtained, through an analysis of the multiple scattering of muon tracks as they pass through our detector. This information can be used further to obtain an estimate of the energy of muons crossing the detector. Here we present the results of two dedicated tests, performed at CERN PS-T9 and SPS-X7 beam lines, to provide a full check of the electronics and to exploit the feasibility of such a multiple scattering analysis. We show that by using a neural network approach, we are able to reconstruct the muon energy for Eμ<40 GeV. The test beam data provide an absolute energy calibration, which allows us to apply this method to MACRO data.

UR - http://www.scopus.com/inward/record.url?scp=0037152358&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=0037152358&partnerID=8YFLogxK

U2 - 10.1016/S0168-9002(02)01413-4

DO - 10.1016/S0168-9002(02)01413-4

M3 - Article

AN - SCOPUS:0037152358

SN - 0168-9002

VL - 492

SP - 376

EP - 386

JO - Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment

JF - Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment

IS - 3

ER -

Muon energy estimate through multiple scattering with the MACRO detector

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