MINERvA neutrino detector response measured with test beam data

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The MINERvA collaboration operated a scaled-down replica of thesolid scintillator tracking and sampling calorimeter regions of the MINERvA detector in a hadron test beam at the Fermilab Test Beam Facility. This paper reports measurements with samples of protons, pions, and electrons from 0.35 to 2.0...

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Autores: Aliaga L., Altinok O., Araujo Del Castillo C., Bagby L., Bellantoni L., Bergan W.F., Bodek A., Bradford R., Bravar A., Budd H., Butkevich A., Martinez Caicedo D.A., Carneiro M.F., Christy M.E., Chvojka J., Da Motta H., Devan J., Díaz G.A., Dytman S.A., Eberly B., Felix J., Fields L., Fine R., Flight R., Gago A.M., Gingu C., Golan T., Gomez A., Gran R., Harris D.A., Higuera A., Howley I.J., Hurtado K., Kleykamp J., Kordosky M., Lanari M., Le T., Leister A.J., Lovlein A., Maher E., Mann W.A., Marshall C.M., McFarland K.S., McGivern C.L., McGowan A.M., Messerly B., Miller J., Miller W., Mislivec A., Morfín J.G., Mousseau J., Muhlbeier T., Naples D., Nelson J.K., Norrick A., Ochoa N., O'Connor C.D., Osmanov B., Osta J., Paolone V., Patrick C.E., Patrick L., Perdue G.N., Pérez Lara C.E., Rakotondravohitra L., Ray H., Ren L., Rodrigues P.A., Rubinov P., Rude C.R., Ruterbories D., Schellman H., Schmitz D.W., Solano Salinas C.J., Tagg N., Tice B.G., Urrutia Z., Valencia E., Walton T., Westerberg A., Wolcott J., Woodward N., Wospakrik M., Zavala G., Zhang D., Ziemer B.P.
Formato: artículo
Fecha de Publicación:2015
Institución:Consejo Nacional de Ciencia Tecnología e Innovación
Repositorio:CONCYTEC-Institucional
Lenguaje:inglés
OAI Identifier:oai:repositorio.concytec.gob.pe:20.500.12390/696
Enlace del recurso:https://hdl.handle.net/20.500.12390/696
https://doi.org/10.1016/j.nima.2015.04.003
Nivel de acceso:acceso abierto
Materia:Uncertainty analysis
Calorimeters
Calorimetry
Extraction
Hadrons
Intelligent systems
Monte Carlo methods
Birks law
Cross-section measurement
Detector simulations
Electromagnetic calorimetry
Hadron calorimetry
Sampling calorimeters
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oai_identifier_str oai:repositorio.concytec.gob.pe:20.500.12390/696
network_acronym_str CONC
network_name_str CONCYTEC-Institucional
repository_id_str 4689
dc.title.none.fl_str_mv MINERvA neutrino detector response measured with test beam data
title MINERvA neutrino detector response measured with test beam data
spellingShingle MINERvA neutrino detector response measured with test beam data
Aliaga L.
Uncertainty analysis
Calorimeters
Calorimetry
Extraction
Hadrons
Intelligent systems
Monte Carlo methods
Birks law
Cross-section measurement
Detector simulations
Electromagnetic calorimetry
Hadron calorimetry
Sampling calorimeters
title_short MINERvA neutrino detector response measured with test beam data
title_full MINERvA neutrino detector response measured with test beam data
title_fullStr MINERvA neutrino detector response measured with test beam data
title_full_unstemmed MINERvA neutrino detector response measured with test beam data
title_sort MINERvA neutrino detector response measured with test beam data
author Aliaga L.
author_facet Aliaga L.
Altinok O.
Araujo Del Castillo C.
Bagby L.
Bellantoni L.
Bergan W.F.
Bodek A.
Bradford R.
Bravar A.
Budd H.
Butkevich A.
Martinez Caicedo D.A.
Carneiro M.F.
Christy M.E.
Chvojka J.
Da Motta H.
Devan J.
Díaz G.A.
Dytman S.A.
Eberly B.
Felix J.
Fields L.
Fine R.
Flight R.
Gago A.M.
Gingu C.
Golan T.
Gomez A.
Gran R.
Harris D.A.
Higuera A.
Howley I.J.
Hurtado K.
Kleykamp J.
Kordosky M.
Lanari M.
Le T.
Leister A.J.
Lovlein A.
Maher E.
Mann W.A.
Marshall C.M.
McFarland K.S.
McGivern C.L.
McGowan A.M.
Messerly B.
Miller J.
Miller W.
Mislivec A.
Morfín J.G.
Mousseau J.
Muhlbeier T.
Naples D.
Nelson J.K.
Norrick A.
Ochoa N.
O'Connor C.D.
Osmanov B.
Osta J.
Paolone V.
Patrick C.E.
Patrick L.
Perdue G.N.
Pérez Lara C.E.
Rakotondravohitra L.
Ray H.
Ren L.
Rodrigues P.A.
Rubinov P.
Rude C.R.
Ruterbories D.
Schellman H.
Schmitz D.W.
Solano Salinas C.J.
Tagg N.
Tice B.G.
Urrutia Z.
Valencia E.
Walton T.
Westerberg A.
Wolcott J.
Woodward N.
Wospakrik M.
Zavala G.
Zhang D.
Ziemer B.P.
author_role author
author2 Altinok O.
Araujo Del Castillo C.
Bagby L.
Bellantoni L.
Bergan W.F.
Bodek A.
Bradford R.
Bravar A.
Budd H.
Butkevich A.
Martinez Caicedo D.A.
Carneiro M.F.
Christy M.E.
Chvojka J.
Da Motta H.
Devan J.
Díaz G.A.
Dytman S.A.
Eberly B.
Felix J.
Fields L.
Fine R.
Flight R.
Gago A.M.
Gingu C.
Golan T.
Gomez A.
Gran R.
Harris D.A.
Higuera A.
Howley I.J.
Hurtado K.
Kleykamp J.
Kordosky M.
Lanari M.
Le T.
Leister A.J.
Lovlein A.
Maher E.
Mann W.A.
Marshall C.M.
McFarland K.S.
McGivern C.L.
McGowan A.M.
Messerly B.
Miller J.
Miller W.
Mislivec A.
Morfín J.G.
Mousseau J.
Muhlbeier T.
Naples D.
Nelson J.K.
Norrick A.
Ochoa N.
O'Connor C.D.
Osmanov B.
Osta J.
Paolone V.
Patrick C.E.
Patrick L.
Perdue G.N.
Pérez Lara C.E.
Rakotondravohitra L.
Ray H.
Ren L.
Rodrigues P.A.
Rubinov P.
Rude C.R.
Ruterbories D.
Schellman H.
Schmitz D.W.
Solano Salinas C.J.
Tagg N.
Tice B.G.
Urrutia Z.
Valencia E.
Walton T.
Westerberg A.
Wolcott J.
Woodward N.
Wospakrik M.
Zavala G.
Zhang D.
Ziemer B.P.
author2_role author
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dc.contributor.author.fl_str_mv Aliaga L.
Altinok O.
Araujo Del Castillo C.
Bagby L.
Bellantoni L.
Bergan W.F.
Bodek A.
Bradford R.
Bravar A.
Budd H.
Butkevich A.
Martinez Caicedo D.A.
Carneiro M.F.
Christy M.E.
Chvojka J.
Da Motta H.
Devan J.
Díaz G.A.
Dytman S.A.
Eberly B.
Felix J.
Fields L.
Fine R.
Flight R.
Gago A.M.
Gingu C.
Golan T.
Gomez A.
Gran R.
Harris D.A.
Higuera A.
Howley I.J.
Hurtado K.
Kleykamp J.
Kordosky M.
Lanari M.
Le T.
Leister A.J.
Lovlein A.
Maher E.
Mann W.A.
Marshall C.M.
McFarland K.S.
McGivern C.L.
McGowan A.M.
Messerly B.
Miller J.
Miller W.
Mislivec A.
Morfín J.G.
Mousseau J.
Muhlbeier T.
Naples D.
Nelson J.K.
Norrick A.
Ochoa N.
O'Connor C.D.
Osmanov B.
Osta J.
Paolone V.
Patrick C.E.
Patrick L.
Perdue G.N.
Pérez Lara C.E.
Rakotondravohitra L.
Ray H.
Ren L.
Rodrigues P.A.
Rubinov P.
Rude C.R.
Ruterbories D.
Schellman H.
Schmitz D.W.
Solano Salinas C.J.
Tagg N.
Tice B.G.
Urrutia Z.
Valencia E.
Walton T.
Westerberg A.
Wolcott J.
Woodward N.
Wospakrik M.
Zavala G.
Zhang D.
Ziemer B.P.
dc.subject.none.fl_str_mv Uncertainty analysis
topic Uncertainty analysis
Calorimeters
Calorimetry
Extraction
Hadrons
Intelligent systems
Monte Carlo methods
Birks law
Cross-section measurement
Detector simulations
Electromagnetic calorimetry
Hadron calorimetry
Sampling calorimeters
dc.subject.es_PE.fl_str_mv Calorimeters
Calorimetry
Extraction
Hadrons
Intelligent systems
Monte Carlo methods
Birks law
Cross-section measurement
Detector simulations
Electromagnetic calorimetry
Hadron calorimetry
Sampling calorimeters
description The MINERvA collaboration operated a scaled-down replica of thesolid scintillator tracking and sampling calorimeter regions of the MINERvA detector in a hadron test beam at the Fermilab Test Beam Facility. This paper reports measurements with samples of protons, pions, and electrons from 0.35 to 2.0 GeV/c momentum. The calorimetric response to protons, pions, and electrons is obtained from these data. A measurement of the parameter in Birks' law and an estimate of the tracking efficiency are extracted from the proton sample. Overall the data are well described by a Geant4-based Monte Carlo simulation of the detector and particle interactions with agreements better than 4% for the calorimetric response, though some features of the data are not precisely modeled. These measurements are used to tune the MINERvA detector simulation and evaluate systematic uncertainties in support of the MINERvA neutrino crosssection measurement program.
publishDate 2015
dc.date.accessioned.none.fl_str_mv 2024-05-30T23:13:38Z
dc.date.available.none.fl_str_mv 2024-05-30T23:13:38Z
dc.date.issued.fl_str_mv 2015
dc.type.none.fl_str_mv info:eu-repo/semantics/article
format article
dc.identifier.uri.none.fl_str_mv https://hdl.handle.net/20.500.12390/696
dc.identifier.doi.none.fl_str_mv https://doi.org/10.1016/j.nima.2015.04.003
dc.identifier.scopus.none.fl_str_mv 2-s2.0-84928378141
url https://hdl.handle.net/20.500.12390/696
https://doi.org/10.1016/j.nima.2015.04.003
identifier_str_mv 2-s2.0-84928378141
dc.language.iso.none.fl_str_mv eng
language eng
dc.relation.ispartof.none.fl_str_mv Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment
dc.rights.none.fl_str_mv info:eu-repo/semantics/openAccess
dc.rights.uri.none.fl_str_mv https://creativecommons.org/licenses/by/4.0/
eu_rights_str_mv openAccess
rights_invalid_str_mv https://creativecommons.org/licenses/by/4.0/
dc.publisher.none.fl_str_mv Elsevier
publisher.none.fl_str_mv Elsevier
dc.source.none.fl_str_mv reponame:CONCYTEC-Institucional
instname:Consejo Nacional de Ciencia Tecnología e Innovación
instacron:CONCYTEC
instname_str Consejo Nacional de Ciencia Tecnología e Innovación
instacron_str CONCYTEC
institution CONCYTEC
reponame_str CONCYTEC-Institucional
collection CONCYTEC-Institucional
repository.name.fl_str_mv Repositorio Institucional CONCYTEC
repository.mail.fl_str_mv repositorio@concytec.gob.pe
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spelling 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 L.Altinok O.Araujo Del Castillo C.Bagby L.Bellantoni L.Bergan W.F.Bodek A.Bradford R.Bravar A.Budd H.Butkevich A.Martinez Caicedo D.A.Carneiro M.F.Christy M.E.Chvojka J.Da Motta H.Devan J.Díaz G.A.Dytman S.A.Eberly B.Felix J.Fields L.Fine R.Flight R.Gago A.M.Gingu C.Golan T.Gomez A.Gran R.Harris D.A.Higuera A.Howley I.J.Hurtado K.Kleykamp J.Kordosky M.Lanari M.Le T.Leister A.J.Lovlein A.Maher E.Mann W.A.Marshall C.M.McFarland K.S.McGivern C.L.McGowan A.M.Messerly B.Miller J.Miller W.Mislivec A.Morfín J.G.Mousseau J.Muhlbeier T.Naples D.Nelson J.K.Norrick A.Ochoa N.O'Connor C.D.Osmanov B.Osta J.Paolone V.Patrick C.E.Patrick L.Perdue G.N.Pérez Lara C.E.Rakotondravohitra L.Ray H.Ren L.Rodrigues P.A.Rubinov P.Rude C.R.Ruterbories D.Schellman H.Schmitz D.W.Solano Salinas C.J.Tagg N.Tice B.G.Urrutia Z.Valencia E.Walton T.Westerberg A.Wolcott J.Woodward N.Wospakrik M.Zavala G.Zhang D.Ziemer B.P.2024-05-30T23:13:38Z2024-05-30T23:13:38Z2015https://hdl.handle.net/20.500.12390/696https://doi.org/10.1016/j.nima.2015.04.0032-s2.0-84928378141The MINERvA collaboration operated a scaled-down replica of thesolid scintillator tracking and sampling calorimeter regions of the MINERvA detector in a hadron test beam at the Fermilab Test Beam Facility. This paper reports measurements with samples of protons, pions, and electrons from 0.35 to 2.0 GeV/c momentum. The calorimetric response to protons, pions, and electrons is obtained from these data. A measurement of the parameter in Birks' law and an estimate of the tracking efficiency are extracted from the proton sample. Overall the data are well described by a Geant4-based Monte Carlo simulation of the detector and particle interactions with agreements better than 4% for the calorimetric response, though some features of the data are not precisely modeled. These measurements are used to tune the MINERvA detector simulation and evaluate systematic uncertainties in support of the MINERvA neutrino crosssection measurement program.Consejo Nacional de Ciencia, Tecnología e Innovación Tecnológica - ConcytecengElsevierNuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipmentinfo:eu-repo/semantics/openAccesshttps://creativecommons.org/licenses/by/4.0/Uncertainty analysisCalorimeters-1Calorimetry-1Extraction-1Hadrons-1Intelligent systems-1Monte Carlo methods-1Birks law-1Cross-section measurement-1Detector simulations-1Electromagnetic calorimetry-1Hadron calorimetry-1Sampling calorimeters-1MINERvA neutrino detector response measured with test beam datainfo:eu-repo/semantics/articlereponame:CONCYTEC-Institucionalinstname:Consejo Nacional de Ciencia Tecnología e 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<OrgUnit> </OrgUnit> </Affiliation> </Author> </Authors> <Editors> </Editors> <Publishers> <Publisher> <DisplayName>Elsevier</DisplayName> <OrgUnit /> </Publisher> </Publishers> <License>https://creativecommons.org/licenses/by/4.0/</License> <Keyword>Uncertainty analysis</Keyword> <Keyword>Calorimeters</Keyword> <Keyword>Calorimetry</Keyword> <Keyword>Extraction</Keyword> <Keyword>Hadrons</Keyword> <Keyword>Intelligent systems</Keyword> <Keyword>Monte Carlo methods</Keyword> <Keyword>Birks law</Keyword> <Keyword>Cross-section measurement</Keyword> <Keyword>Detector simulations</Keyword> <Keyword>Electromagnetic calorimetry</Keyword> <Keyword>Hadron calorimetry</Keyword> <Keyword>Sampling calorimeters</Keyword> <Abstract>The MINERvA collaboration operated a scaled-down replica of thesolid scintillator tracking and sampling calorimeter regions of the MINERvA detector in a hadron test beam at the Fermilab Test Beam Facility. This paper reports measurements with samples of protons, pions, and electrons from 0.35 to 2.0 GeV/c momentum. The calorimetric response to protons, pions, and electrons is obtained from these data. A measurement of the parameter in Birks&apos; law and an estimate of the tracking efficiency are extracted from the proton sample. Overall the data are well described by a Geant4-based Monte Carlo simulation of the detector and particle interactions with agreements better than 4% for the calorimetric response, though some features of the data are not precisely modeled. These measurements are used to tune the MINERvA detector simulation and evaluate systematic uncertainties in support of the MINERvA neutrino crosssection measurement program.</Abstract> <Access xmlns="http://purl.org/coar/access_right" > </Access> </Publication> -1
score 13.871882
MINERvA neutrino detector response measured with test beam data
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