Design, calibration, and performance of the MINERvA detector

L. Aliaga; L. Bagby; B. Baldin; A. Baumbaugh; A. Bodek; R. Bradford; W. K. Brooks; D. Boehnlein; S. Boyd; H. Budd; A. Butkevich; D. A. Martinez Caicedo; C. M. Castromonte; M. E. Christy; J. Chvojka; H. Da Motta; D. S. Damiani; I. Danko; M. Datta; J. Devan; E. Draeger; S. A. Dytman; G. A. Díaz; B. Eberly; D. A. Edmondson; J. Felix; L. Fields; G. A. Fiorentini; R. S. Flight; A. M. Gago; H. Gallagher; C. A. George; J. A. Gielata; C. Gingu; R. Gran; J. Grange; N. Grossman; D. A. Harris; J. Heaton; A. Higuera; J. A. Hobbs; I. J. Howley; K. Hurtado; M. Jerkins; T. Kafka; M. O. Kantner; C. Keppel; J. Kilmer; M. Kordosky; A. H. Krajeski; G. J. Kumbartzki; H. Lee; A. G. Leister; G. Locke; G. Maggi; E. Maher; S. Manly; W. A. Mann; C. M. Marshall; K. S. McFarland; C. L. McGivern; A. M. McGowan; A. Mislivec; J. G. Morfín; J. Mousseau; D. Naples; J. K. Nelson; G. Niculescu; I. Niculescu; C. D. O'Connor; N. Ochoa; J. Olsen; B. Osmanov; J. Osta; J. L. Palomino; V. Paolone; J. Park; G. N. Perdue; C. Peña; A. Pla-Dalmau; L. Rakotondravohitra; R. D. Ransome; H. Ray; L. Ren; P. Rubinov; C. Rude; K. E. Sassin; H. Schellman; D. W. Schmitz; R. M. Schneider; E. C. Schulte; C. Simon; F. D. Snider; M. C. Snyder; C. J. Solano Salinas; N. Tagg; B. G. Tice; R. N. Tilden; J. P. Velásquez; T. Walton; A. Westerberg; J. Wolcott; B. A. Wolthuis; N. Woodward; T. Wytock; G. Zavala; H. B. Zeng; D. Zhang; L. Y. Zhu; B. P. Ziemer

doi:10.1016/j.nima.2013.12.053

Design, calibration, and performance of the MINERvA detector

L. Aliaga, L. Bagby, B. Baldin, A. Baumbaugh, A. Bodek, R. Bradford, W. K. Brooks, D. Boehnlein, S. Boyd, H. Budd, A. Butkevich, D. A. Martinez Caicedo, C. M. Castromonte, M. E. Christy, J. Chvojka, H. Da Motta, D. S. Damiani, I. Danko, M. Datta, J. DevanE. Draeger, S. A. Dytman, G. A. Díaz, B. Eberly, D. A. Edmondson, J. Felix, L. Fields, G. A. Fiorentini, R. S. Flight, A. M. Gago, H. Gallagher, C. A. George, J. A. Gielata, C. Gingu, R. Gran, J. Grange, N. Grossman, D. A. Harris, J. Heaton, A. Higuera, J. A. Hobbs, I. J. Howley, K. Hurtado, M. Jerkins, T. Kafka, M. O. Kantner, C. Keppel, J. Kilmer, M. Kordosky, A. H. Krajeski, G. J. Kumbartzki, H. Lee, A. G. Leister, G. Locke, G. Maggi, E. Maher, S. Manly, W. A. Mann, C. M. Marshall, K. S. McFarland, C. L. McGivern, A. M. McGowan, A. Mislivec, J. G. Morfín, J. Mousseau, D. Naples, J. K. Nelson, G. Niculescu, I. Niculescu, C. D. O'Connor, N. Ochoa, J. Olsen, B. Osmanov, J. Osta, J. L. Palomino, V. Paolone, J. Park, G. N. Perdue, C. Peña, A. Pla-Dalmau, L. Rakotondravohitra, R. D. Ransome, H. Ray, L. Ren, P. Rubinov, C. Rude, K. E. Sassin, H. Schellman, D. W. Schmitz, R. M. Schneider, E. C. Schulte, C. Simon, F. D. Snider, M. C. Snyder, C. J. Solano Salinas, N. Tagg, B. G. Tice, R. N. Tilden, J. P. Velásquez, T. Walton, A. Westerberg, J. Wolcott, B. A. Wolthuis, N. Woodward, T. Wytock, G. Zavala, H. B. Zeng, D. Zhang, L. Y. Zhu, B. P. Ziemer

Physics

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

163 Citas (Scopus)

Resumen

The MINERvA⁶ experiment is designed to perform precision studies of neutrino-nucleus scattering using ^νμ and ν̄_μ neutrinos incident at 1-20 GeV in the NuMI beam at Fermilab. This article presents a detailed description of the MINERvA detector and describes the ex situ and in situ techniques employed to characterize the detector and monitor its performance. The detector is composed of a finely segmented scintillator-based inner tracking region surrounded by electromagnetic and hadronic sampling calorimetry. The upstream portion of the detector includes planes of graphite, iron and lead interleaved between tracking planes to facilitate the study of nuclear effects in neutrino interactions. Observations concerning the detector response over sustained periods of running are reported. The detector design and methods of operation have relevance to future neutrino experiments in which segmented scintillator tracking is utilized.

Idioma original	Inglés
Páginas (desde-hasta)	130-159
Número de páginas	30
Publicación	Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment
Volumen	743
DOI	https://doi.org/10.1016/j.nima.2013.12.053
Estado	Publicada - abr. 11 2014

Nota bibliográfica

Funding Information:
This work was supported by the Fermi National Accelerator Laboratory , which is operated by the Fermi Research Alliance, LLC , under Contract no. DE-AC02-07CH11359 , including the MINERvA construction project, with the United States Department of Energy . Construction support also was granted by the United States National Science Foundation under NSF Award PHY-0619727 and by the University of Rochester . Support for participating scientists was provided by DOE and NSF (USA) by CAPES and CNPq (Brazil), by CoNaCyT (Mexico), by CONICYT (Chile), by CONCYTEC, DGI-PUCP and IDI/IGI-UNI (Peru), by the Latin American Center for Physics (CLAF) and by FASI (Russia). The MINERvA Collaboration wishes to express its thanks to the MINOS Collaboration for the use of its near detector data, reconstruction, calibration and simulation. Finally, the authors are grateful to the staff of Fermilab for their contribution to this effort, during the design, construction, data taking and data analysis phases of the experiment.

!!!ASJC Scopus Subject Areas

Física nuclear y de alta energía
Instrumental

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10.1016/j.nima.2013.12.053

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Aliaga, L., Bagby, L., Baldin, B., Baumbaugh, A., Bodek, A., Bradford, R., Brooks, W. K., Boehnlein, D., Boyd, S., Budd, H., Butkevich, A., Martinez Caicedo, D. A., Castromonte, C. M., Christy, M. E., Chvojka, J., Da Motta, H., Damiani, D. S., Danko, I., Datta, M., ... Ziemer, B. P. (2014). Design, calibration, and performance of the MINERvA detector. Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 743, 130-159. https://doi.org/10.1016/j.nima.2013.12.053

@article{b31542ada5314da39984a35f193d782a,

title = "Design, calibration, and performance of the MINERvA detector",

abstract = "The MINERvA6 experiment is designed to perform precision studies of neutrino-nucleus scattering using νμ and {\=ν}μ neutrinos incident at 1-20 GeV in the NuMI beam at Fermilab. This article presents a detailed description of the MINERvA detector and describes the ex situ and in situ techniques employed to characterize the detector and monitor its performance. The detector is composed of a finely segmented scintillator-based inner tracking region surrounded by electromagnetic and hadronic sampling calorimetry. The upstream portion of the detector includes planes of graphite, iron and lead interleaved between tracking planes to facilitate the study of nuclear effects in neutrino interactions. Observations concerning the detector response over sustained periods of running are reported. The detector design and methods of operation have relevance to future neutrino experiments in which segmented scintillator tracking is utilized.",

keywords = "Cross-sections, MINERvA, Neutrinos, NuMI, Nuclear effects",

author = "L. Aliaga and L. Bagby and B. Baldin and A. Baumbaugh and A. Bodek and R. Bradford and Brooks, {W. K.} and D. Boehnlein and S. Boyd and H. Budd and A. Butkevich and {Martinez Caicedo}, {D. A.} and Castromonte, {C. M.} and Christy, {M. E.} and J. Chvojka and {Da Motta}, H. and Damiani, {D. S.} and I. Danko and M. Datta and J. Devan and E. Draeger and Dytman, {S. A.} and D{\'i}az, {G. A.} and B. Eberly and Edmondson, {D. A.} and J. Felix and L. Fields and Fiorentini, {G. A.} and Flight, {R. S.} and Gago, {A. M.} and H. Gallagher and George, {C. A.} and Gielata, {J. A.} and C. Gingu and R. Gran and J. Grange and N. Grossman and Harris, {D. A.} and J. Heaton and A. Higuera and Hobbs, {J. A.} and Howley, {I. J.} and K. Hurtado and M. Jerkins and T. Kafka and Kantner, {M. O.} and C. Keppel and J. Kilmer and M. Kordosky and Krajeski, {A. H.} and Kumbartzki, {G. J.} and H. Lee and Leister, {A. G.} and G. Locke and G. Maggi and E. Maher and S. Manly and Mann, {W. A.} and Marshall, {C. M.} and McFarland, {K. S.} and McGivern, {C. L.} and McGowan, {A. M.} and A. Mislivec and Morf{\'i}n, {J. G.} and J. Mousseau and D. Naples and Nelson, {J. K.} and G. Niculescu and I. Niculescu and O'Connor, {C. D.} and N. Ochoa and J. Olsen and B. Osmanov and J. Osta and Palomino, {J. L.} and V. Paolone and J. Park and Perdue, {G. N.} and C. Pe{\~n}a and A. Pla-Dalmau and L. Rakotondravohitra and Ransome, {R. D.} and H. Ray and L. Ren and P. Rubinov and C. Rude and Sassin, {K. E.} and H. Schellman and Schmitz, {D. W.} and Schneider, {R. M.} and Schulte, {E. C.} and C. Simon and Snider, {F. D.} and Snyder, {M. C.} and {Solano Salinas}, {C. J.} and N. Tagg and Tice, {B. G.} and Tilden, {R. N.} and Vel{\'a}squez, {J. P.} and T. Walton and A. Westerberg and J. Wolcott and Wolthuis, {B. A.} and N. Woodward and T. Wytock and G. Zavala and Zeng, {H. B.} and D. Zhang and Zhu, {L. Y.} and Ziemer, {B. P.}",

note = "Funding Information: This work was supported by the Fermi National Accelerator Laboratory , which is operated by the Fermi Research Alliance, LLC , under Contract no. DE-AC02-07CH11359 , including the MINERvA construction project, with the United States Department of Energy . Construction support also was granted by the United States National Science Foundation under NSF Award PHY-0619727 and by the University of Rochester . Support for participating scientists was provided by DOE and NSF (USA) by CAPES and CNPq (Brazil), by CoNaCyT (Mexico), by CONICYT (Chile), by CONCYTEC, DGI-PUCP and IDI/IGI-UNI (Peru), by the Latin American Center for Physics (CLAF) and by FASI (Russia). The MINERvA Collaboration wishes to express its thanks to the MINOS Collaboration for the use of its near detector data, reconstruction, calibration and simulation. Finally, the authors are grateful to the staff of Fermilab for their contribution to this effort, during the design, construction, data taking and data analysis phases of the experiment.",

year = "2014",

month = apr,

day = "11",

doi = "10.1016/j.nima.2013.12.053",

language = "English",

volume = "743",

pages = "130--159",

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

issn = "0168-9002",

publisher = "Elsevier",

}

Aliaga, L, Bagby, L, Baldin, B, Baumbaugh, A, Bodek, A, Bradford, R, Brooks, WK, Boehnlein, D, Boyd, S, Budd, H, Butkevich, A, Martinez Caicedo, DA, Castromonte, CM, Christy, ME, Chvojka, J, Da Motta, H, Damiani, DS, Danko, I, Datta, M, Devan, J, Draeger, E, Dytman, SA, Díaz, GA, Eberly, B, Edmondson, DA, Felix, J, Fields, L, Fiorentini, GA, Flight, RS, Gago, AM, Gallagher, H, George, CA, Gielata, JA, Gingu, C, Gran, R, Grange, J, Grossman, N, Harris, DA, Heaton, J, Higuera, A, Hobbs, JA, Howley, IJ, Hurtado, K, Jerkins, M, Kafka, T, Kantner, MO, Keppel, C, Kilmer, J, Kordosky, M, Krajeski, AH, Kumbartzki, GJ, Lee, H, Leister, AG, Locke, G, Maggi, G, Maher, E, Manly, S, Mann, WA, Marshall, CM, McFarland, KS, McGivern, CL, McGowan, AM, Mislivec, A, Morfín, JG, Mousseau, J, Naples, D, Nelson, JK, Niculescu, G, Niculescu, I, O'Connor, CD, Ochoa, N, Olsen, J, Osmanov, B, Osta, J, Palomino, JL, Paolone, V, Park, J, Perdue, GN, Peña, C, Pla-Dalmau, A, Rakotondravohitra, L, Ransome, RD, Ray, H, Ren, L, Rubinov, P, Rude, C, Sassin, KE, Schellman, H, Schmitz, DW, Schneider, RM, Schulte, EC, Simon, C, Snider, FD, Snyder, MC, Solano Salinas, CJ, Tagg, N, Tice, BG, Tilden, RN, Velásquez, JP, Walton, T, Westerberg, A, Wolcott, J, Wolthuis, BA, Woodward, N, Wytock, T, Zavala, G, Zeng, HB, Zhang, D, Zhu, LY & Ziemer, BP 2014, 'Design, calibration, and performance of the MINERvA detector', Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, vol. 743, pp. 130-159. https://doi.org/10.1016/j.nima.2013.12.053

TY - JOUR

T1 - Design, calibration, and performance of the MINERvA detector

AU - Aliaga, L.

AU - Bagby, L.

AU - Baldin, B.

AU - Baumbaugh, A.

AU - Bodek, A.

AU - Bradford, R.

AU - Brooks, W. K.

AU - Boehnlein, D.

AU - Boyd, S.

AU - Budd, H.

AU - Butkevich, A.

AU - Martinez Caicedo, D. A.

AU - Castromonte, C. M.

AU - Christy, M. E.

AU - Chvojka, J.

AU - Da Motta, H.

AU - Damiani, D. S.

AU - Danko, I.

AU - Datta, M.

AU - Devan, J.

AU - Draeger, E.

AU - Dytman, S. A.

AU - Díaz, G. A.

AU - Eberly, B.

AU - Edmondson, D. A.

AU - Felix, J.

AU - Fields, L.

AU - Fiorentini, G. A.

AU - Flight, R. S.

AU - Gago, A. M.

AU - Gallagher, H.

AU - George, C. A.

AU - Gielata, J. A.

AU - Gingu, C.

AU - Gran, R.

AU - Grange, J.

AU - Grossman, N.

AU - Harris, D. A.

AU - Heaton, J.

AU - Higuera, A.

AU - Hobbs, J. A.

AU - Howley, I. J.

AU - Hurtado, K.

AU - Jerkins, M.

AU - Kafka, T.

AU - Kantner, M. O.

AU - Keppel, C.

AU - Kilmer, J.

AU - Kordosky, M.

AU - Krajeski, A. H.

AU - Kumbartzki, G. J.

AU - Lee, H.

AU - Leister, A. G.

AU - Locke, G.

AU - Maggi, G.

AU - Maher, E.

AU - Manly, S.

AU - Mann, W. A.

AU - Marshall, C. M.

AU - McFarland, K. S.

AU - McGivern, C. L.

AU - McGowan, A. M.

AU - Mislivec, A.

AU - Morfín, J. G.

AU - Mousseau, J.

AU - Naples, D.

AU - Nelson, J. K.

AU - Niculescu, G.

AU - Niculescu, I.

AU - O'Connor, C. D.

AU - Ochoa, N.

AU - Olsen, J.

AU - Osmanov, B.

AU - Osta, J.

AU - Palomino, J. L.

AU - Paolone, V.

AU - Park, J.

AU - Perdue, G. N.

AU - Peña, C.

AU - Pla-Dalmau, A.

AU - Rakotondravohitra, L.

AU - Ransome, R. D.

AU - Ray, H.

AU - Ren, L.

AU - Rubinov, P.

AU - Rude, C.

AU - Sassin, K. E.

AU - Schellman, H.

AU - Schmitz, D. W.

AU - Schneider, R. M.

AU - Schulte, E. C.

AU - Simon, C.

AU - Snider, F. D.

AU - Snyder, M. C.

AU - Solano Salinas, C. J.

AU - Tagg, N.

AU - Tice, B. G.

AU - Tilden, R. N.

AU - Velásquez, J. P.

AU - Walton, T.

AU - Westerberg, A.

AU - Wolcott, J.

AU - Wolthuis, B. A.

AU - Woodward, N.

AU - Wytock, T.

AU - Zavala, G.

AU - Zeng, H. B.

AU - Zhang, D.

AU - Zhu, L. Y.

AU - Ziemer, B. P.

N1 - Funding Information: This work was supported by the Fermi National Accelerator Laboratory , which is operated by the Fermi Research Alliance, LLC , under Contract no. DE-AC02-07CH11359 , including the MINERvA construction project, with the United States Department of Energy . Construction support also was granted by the United States National Science Foundation under NSF Award PHY-0619727 and by the University of Rochester . Support for participating scientists was provided by DOE and NSF (USA) by CAPES and CNPq (Brazil), by CoNaCyT (Mexico), by CONICYT (Chile), by CONCYTEC, DGI-PUCP and IDI/IGI-UNI (Peru), by the Latin American Center for Physics (CLAF) and by FASI (Russia). The MINERvA Collaboration wishes to express its thanks to the MINOS Collaboration for the use of its near detector data, reconstruction, calibration and simulation. Finally, the authors are grateful to the staff of Fermilab for their contribution to this effort, during the design, construction, data taking and data analysis phases of the experiment.

PY - 2014/4/11

Y1 - 2014/4/11

N2 - The MINERvA6 experiment is designed to perform precision studies of neutrino-nucleus scattering using νμ and ν̄μ neutrinos incident at 1-20 GeV in the NuMI beam at Fermilab. This article presents a detailed description of the MINERvA detector and describes the ex situ and in situ techniques employed to characterize the detector and monitor its performance. The detector is composed of a finely segmented scintillator-based inner tracking region surrounded by electromagnetic and hadronic sampling calorimetry. The upstream portion of the detector includes planes of graphite, iron and lead interleaved between tracking planes to facilitate the study of nuclear effects in neutrino interactions. Observations concerning the detector response over sustained periods of running are reported. The detector design and methods of operation have relevance to future neutrino experiments in which segmented scintillator tracking is utilized.

AB - The MINERvA6 experiment is designed to perform precision studies of neutrino-nucleus scattering using νμ and ν̄μ neutrinos incident at 1-20 GeV in the NuMI beam at Fermilab. This article presents a detailed description of the MINERvA detector and describes the ex situ and in situ techniques employed to characterize the detector and monitor its performance. The detector is composed of a finely segmented scintillator-based inner tracking region surrounded by electromagnetic and hadronic sampling calorimetry. The upstream portion of the detector includes planes of graphite, iron and lead interleaved between tracking planes to facilitate the study of nuclear effects in neutrino interactions. Observations concerning the detector response over sustained periods of running are reported. The detector design and methods of operation have relevance to future neutrino experiments in which segmented scintillator tracking is utilized.

KW - Cross-sections

KW - MINERvA

KW - Neutrinos

KW - NuMI

KW - Nuclear effects

UR - http://www.scopus.com/inward/record.url?scp=84894497960&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=84894497960&partnerID=8YFLogxK

U2 - 10.1016/j.nima.2013.12.053

DO - 10.1016/j.nima.2013.12.053

M3 - Article

AN - SCOPUS:84894497960

SN - 0168-9002

VL - 743

SP - 130

EP - 159

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

ER -

Design, calibration, and performance of the MINERvA detector

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