Hadronic energy resolution of a highly granular scintillator-steel hadron calorimeter using software compensation techniques

The hadronic energy resolution of the CALICE setup, consisting of a silicon tungsten electromagnetic calorimeter, an analog hadron calorimeter and an analog tail catcher has been studied using data taken in 2007 at CERN and simulations. To improve the energy resolution of hadronic showers in the had...

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Detalles Bibliográficos
Autores principales: Adloff, C., Blaha, J., Blaising, J.J., Drancourt, C., Espargiliere, A., Gaglione, R., Geffroy, N., Karyotakis, Y., Prast, J., Vouters, G., Francis, K., Repond, J., Smith, J., Xia, L., Baldolemar, E., Li, J., Park, S.T., Sosebee, M., White, A.P., Yu, J., Buanes, T., Eigen, G., Mikami, Y., Watson, N.K., Goto, T., Mavromanolakis, G., Thomson, M.A., Ward, D.R., Yan, W., Benchekroun, D., Hoummada, A., Khoulaki, Y., Benyamna, M., Carloganu, C., Fehr, F., Gay, P., Manen, S., Royer, L., Blazey, G.C., Dyshkant, A., Lima, J.G.R., Zutshi, V., Hostachy, J.Y., Morin, L., Cornett, U., David, D., Falley, G., Gadow, K., Gottlicher, P., Gunter, C., Hermberg, B., Karstensen, S., Krivan, F., Lucaci-Timoce, A.I., Lu, S., Lutz, B., Morozov, S., Morgunov, V., Reinecke, M., Sefkow, F., Smirnov, P., Terwort, M., Vargas-Trevino, A., Feege, N., Garutti, E., Marchesini, I., Ramilli, M., Eckert, P., Harion, T., Kaplan, A., Schultz-Coulon, H.Ch, Shen, W., Stamen, R., Tadday, A., Bilki, B., Norbeck, E., Onel, Y., Wilson, G.W., Kawagoe, K., Dauncey, P.D., Magnan, A.M., Wing, M., Salvatore, F., Calvo Alamillo, E., Fouz, M.C., Puerta-Pelayo, J., Balagura, V., Bobchenko, B., Chadeeva, M., Danilov, M., Epifantsev, A., Markin, O., Mizuk, R., Novikov, E., Rusinov, V., Tarkovsky, E., Kirikova, N., Kozlov, V., Soloviev, Y., Buzhan, P., Dolgoshein, B., Ilyin, A., Kantserov, V., Kaplin, V., Karakash, A., Popova, E., Smirnov, S., Kiesling, C., Pfau, S., Seidel, K., Simon, F., Soldner, C., Szalay, M., Tesar, M., Weuste, L., Bonis, J., Bouquet, B., Callier, S., Cornebise, P., Doublet, Ph, Dulucq, F., Faucci Giannelli, M., Fleury, J., Li, H., Martin-Chassard, G., Richard, F., de la Taille, Ch., Poschl, R., Raux, L., Seguin-Moreau, N., Wicek, F., Anduze, M., Boudry, V., Brient, J.C., Jeans, D., Mora de Freitas, P., Musat, G., Reinhard, M., Ruan, M., Videau, H., Bulanek, B., Zacek, J., Cvach, J., Gallus, P., Havranek, M., Janata, M., Kvasnicka, J., Lednicky, D., Marcisovsky, M., Polak, I., Popule, J., Tomasek, L., Tomasek, M., Ruzicka, P., Sicho, P., Smolik, J., Vrba, V., Zalesak, J., Belhorma, B., Ghazlane, H., Takeshita, T., Uozumi, S., Sauer, J., Weber, S., Zeitnitz, C.
Formato: info:eu-repo/semantics/article
Lenguaje:eng
Publicado: JINST 2012
Materias:
Detectors and Experimental Techniques
9: Advanced infrastructures for detector R&D
9.5:Highly Granular Calorimetry
Acceso en línea:https://dx.doi.org/10.1088/1748-0221/7/09/P09017
http://cds.cern.ch/record/1462880
_version_ 1780925320334934016
author Adloff, C.
Blaha, J.
Blaising, J.J.
Drancourt, C.
Espargiliere, A.
Gaglione, R.
Geffroy, N.
Karyotakis, Y.
Prast, J.
Vouters, G.
Francis, K.
Repond, J.
Smith, J.
Xia, L.
Baldolemar, E.
Li, J.
Park, S.T.
Sosebee, M.
White, A.P.
Yu, J.
Buanes, T.
Eigen, G.
Mikami, Y.
Watson, N.K.
Goto, T.
Mavromanolakis, G.
Thomson, M.A.
Ward, D.R.
Yan, W.
Benchekroun, D.
Hoummada, A.
Khoulaki, Y.
Benyamna, M.
Carloganu, C.
Fehr, F.
Gay, P.
Manen, S.
Royer, L.
Blazey, G.C.
Dyshkant, A.
Lima, J.G.R.
Zutshi, V.
Hostachy, J.Y.
Morin, L.
Cornett, U.
David, D.
Falley, G.
Gadow, K.
Gottlicher, P.
Gunter, C.
Hermberg, B.
Karstensen, S.
Krivan, F.
Lucaci-Timoce, A.I.
Lu, S.
Lutz, B.
Morozov, S.
Morgunov, V.
Reinecke, M.
Sefkow, F.
Smirnov, P.
Terwort, M.
Vargas-Trevino, A.
Feege, N.
Garutti, E.
Marchesini, I.
Ramilli, M.
Eckert, P.
Harion, T.
Kaplan, A.
Schultz-Coulon, H.Ch
Shen, W.
Stamen, R.
Tadday, A.
Bilki, B.
Norbeck, E.
Onel, Y.
Wilson, G.W.
Kawagoe, K.
Dauncey, P.D.
Magnan, A.M.
Wing, M.
Salvatore, F.
Calvo Alamillo, E.
Fouz, M.C.
Puerta-Pelayo, J.
Balagura, V.
Bobchenko, B.
Chadeeva, M.
Danilov, M.
Epifantsev, A.
Markin, O.
Mizuk, R.
Novikov, E.
Rusinov, V.
Tarkovsky, E.
Kirikova, N.
Kozlov, V.
Smirnov, P.
Soloviev, Y.
Buzhan, P.
Dolgoshein, B.
Ilyin, A.
Kantserov, V.
Kaplin, V.
Karakash, A.
Popova, E.
Smirnov, S.
Kiesling, C.
Pfau, S.
Seidel, K.
Simon, F.
Soldner, C.
Szalay, M.
Tesar, M.
Weuste, L.
Bonis, J.
Bouquet, B.
Callier, S.
Cornebise, P.
Doublet, Ph
Dulucq, F.
Faucci Giannelli, M.
Fleury, J.
Li, H.
Martin-Chassard, G.
Richard, F.
de la Taille, Ch.
Poschl, R.
Raux, L.
Seguin-Moreau, N.
Wicek, F.
Anduze, M.
Boudry, V.
Brient, J.C.
Jeans, D.
Mora de Freitas, P.
Musat, G.
Reinhard, M.
Ruan, M.
Videau, H.
Bulanek, B.
Zacek, J.
Cvach, J.
Gallus, P.
Havranek, M.
Janata, M.
Kvasnicka, J.
Lednicky, D.
Marcisovsky, M.
Polak, I.
Popule, J.
Tomasek, L.
Tomasek, M.
Ruzicka, P.
Sicho, P.
Smolik, J.
Vrba, V.
Zalesak, J.
Belhorma, B.
Ghazlane, H.
Takeshita, T.
Uozumi, S.
Sauer, J.
Weber, S.
Zeitnitz, C.
author_facet Adloff, C.
Blaha, J.
Blaising, J.J.
Drancourt, C.
Espargiliere, A.
Gaglione, R.
Geffroy, N.
Karyotakis, Y.
Prast, J.
Vouters, G.
Francis, K.
Repond, J.
Smith, J.
Xia, L.
Baldolemar, E.
Li, J.
Park, S.T.
Sosebee, M.
White, A.P.
Yu, J.
Buanes, T.
Eigen, G.
Mikami, Y.
Watson, N.K.
Goto, T.
Mavromanolakis, G.
Thomson, M.A.
Ward, D.R.
Yan, W.
Benchekroun, D.
Hoummada, A.
Khoulaki, Y.
Benyamna, M.
Carloganu, C.
Fehr, F.
Gay, P.
Manen, S.
Royer, L.
Blazey, G.C.
Dyshkant, A.
Lima, J.G.R.
Zutshi, V.
Hostachy, J.Y.
Morin, L.
Cornett, U.
David, D.
Falley, G.
Gadow, K.
Gottlicher, P.
Gunter, C.
Hermberg, B.
Karstensen, S.
Krivan, F.
Lucaci-Timoce, A.I.
Lu, S.
Lutz, B.
Morozov, S.
Morgunov, V.
Reinecke, M.
Sefkow, F.
Smirnov, P.
Terwort, M.
Vargas-Trevino, A.
Feege, N.
Garutti, E.
Marchesini, I.
Ramilli, M.
Eckert, P.
Harion, T.
Kaplan, A.
Schultz-Coulon, H.Ch
Shen, W.
Stamen, R.
Tadday, A.
Bilki, B.
Norbeck, E.
Onel, Y.
Wilson, G.W.
Kawagoe, K.
Dauncey, P.D.
Magnan, A.M.
Wing, M.
Salvatore, F.
Calvo Alamillo, E.
Fouz, M.C.
Puerta-Pelayo, J.
Balagura, V.
Bobchenko, B.
Chadeeva, M.
Danilov, M.
Epifantsev, A.
Markin, O.
Mizuk, R.
Novikov, E.
Rusinov, V.
Tarkovsky, E.
Kirikova, N.
Kozlov, V.
Smirnov, P.
Soloviev, Y.
Buzhan, P.
Dolgoshein, B.
Ilyin, A.
Kantserov, V.
Kaplin, V.
Karakash, A.
Popova, E.
Smirnov, S.
Kiesling, C.
Pfau, S.
Seidel, K.
Simon, F.
Soldner, C.
Szalay, M.
Tesar, M.
Weuste, L.
Bonis, J.
Bouquet, B.
Callier, S.
Cornebise, P.
Doublet, Ph
Dulucq, F.
Faucci Giannelli, M.
Fleury, J.
Li, H.
Martin-Chassard, G.
Richard, F.
de la Taille, Ch.
Poschl, R.
Raux, L.
Seguin-Moreau, N.
Wicek, F.
Anduze, M.
Boudry, V.
Brient, J.C.
Jeans, D.
Mora de Freitas, P.
Musat, G.
Reinhard, M.
Ruan, M.
Videau, H.
Bulanek, B.
Zacek, J.
Cvach, J.
Gallus, P.
Havranek, M.
Janata, M.
Kvasnicka, J.
Lednicky, D.
Marcisovsky, M.
Polak, I.
Popule, J.
Tomasek, L.
Tomasek, M.
Ruzicka, P.
Sicho, P.
Smolik, J.
Vrba, V.
Zalesak, J.
Belhorma, B.
Ghazlane, H.
Takeshita, T.
Uozumi, S.
Sauer, J.
Weber, S.
Zeitnitz, C.
author_sort Adloff, C.
collection CERN
description The hadronic energy resolution of the CALICE setup, consisting of a silicon tungsten electromagnetic calorimeter, an analog hadron calorimeter and an analog tail catcher has been studied using data taken in 2007 at CERN and simulations. To improve the energy resolution of hadronic showers in the hadron calorimeter and the tail catcher, a weighting procedure based on the energy density of the hadron shower is studied. The shower itself and its energy density was reconstructed using a simple clustering algorithm. Furthermore, the use of a neural network has been studied for the same purpose. Both methods use simulated data to determine weights which are then applied to test beam data. These first preliminary studies yield an relative improvement of the energy resolution by roughly 15 % for the shower weighting technique and 23 % for the neural network approach compared to the energy resolution of hadronic showers without software compensation applied.
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spelling cern-14628802021-12-10T07:48:43Z doi:10.1088/1748-0221/7/09/P09017 http://cds.cern.ch/record/1462880 eng Adloff, C. Blaha, J. Blaising, J.J. Drancourt, C. Espargiliere, A. Gaglione, R. Geffroy, N. Karyotakis, Y. Prast, J. Vouters, G. Francis, K. Repond, J. Smith, J. Xia, L. Baldolemar, E. Li, J. Park, S.T. Sosebee, M. White, A.P. Yu, J. Buanes, T. Eigen, G. Mikami, Y. Watson, N.K. Goto, T. Mavromanolakis, G. Thomson, M.A. Ward, D.R. Yan, W. Benchekroun, D. Hoummada, A. Khoulaki, Y. Benyamna, M. Carloganu, C. Fehr, F. Gay, P. Manen, S. Royer, L. Blazey, G.C. Dyshkant, A. Lima, J.G.R. Zutshi, V. Hostachy, J.Y. Morin, L. Cornett, U. David, D. Falley, G. Gadow, K. Gottlicher, P. Gunter, C. Hermberg, B. Karstensen, S. Krivan, F. Lucaci-Timoce, A.I. Lu, S. Lutz, B. Morozov, S. Morgunov, V. Reinecke, M. Sefkow, F. Smirnov, P. Terwort, M. Vargas-Trevino, A. Feege, N. Garutti, E. Marchesini, I. Ramilli, M. Eckert, P. Harion, T. Kaplan, A. Schultz-Coulon, H.Ch Shen, W. Stamen, R. Tadday, A. Bilki, B. Norbeck, E. Onel, Y. Wilson, G.W. Kawagoe, K. Dauncey, P.D. Magnan, A.M. Wing, M. Salvatore, F. Calvo Alamillo, E. Fouz, M.C. Puerta-Pelayo, J. Balagura, V. Bobchenko, B. Chadeeva, M. Danilov, M. Epifantsev, A. Markin, O. Mizuk, R. Novikov, E. Rusinov, V. Tarkovsky, E. Kirikova, N. Kozlov, V. Smirnov, P. Soloviev, Y. Buzhan, P. Dolgoshein, B. Ilyin, A. Kantserov, V. Kaplin, V. Karakash, A. Popova, E. Smirnov, S. Kiesling, C. Pfau, S. Seidel, K. Simon, F. Soldner, C. Szalay, M. Tesar, M. Weuste, L. Bonis, J. Bouquet, B. Callier, S. Cornebise, P. Doublet, Ph Dulucq, F. Faucci Giannelli, M. Fleury, J. Li, H. Martin-Chassard, G. Richard, F. de la Taille, Ch. Poschl, R. Raux, L. Seguin-Moreau, N. Wicek, F. Anduze, M. Boudry, V. Brient, J.C. Jeans, D. Mora de Freitas, P. Musat, G. Reinhard, M. Ruan, M. Videau, H. Bulanek, B. Zacek, J. Cvach, J. Gallus, P. Havranek, M. Janata, M. Kvasnicka, J. Lednicky, D. Marcisovsky, M. Polak, I. Popule, J. Tomasek, L. Tomasek, M. Ruzicka, P. Sicho, P. Smolik, J. Vrba, V. Zalesak, J. Belhorma, B. Ghazlane, H. Takeshita, T. Uozumi, S. Sauer, J. Weber, S. Zeitnitz, C. Hadronic energy resolution of a highly granular scintillator-steel hadron calorimeter using software compensation techniques Detectors and Experimental Techniques 9: Advanced infrastructures for detector R&D 9.5:Highly Granular Calorimetry The hadronic energy resolution of the CALICE setup, consisting of a silicon tungsten electromagnetic calorimeter, an analog hadron calorimeter and an analog tail catcher has been studied using data taken in 2007 at CERN and simulations. To improve the energy resolution of hadronic showers in the hadron calorimeter and the tail catcher, a weighting procedure based on the energy density of the hadron shower is studied. The shower itself and its energy density was reconstructed using a simple clustering algorithm. Furthermore, the use of a neural network has been studied for the same purpose. Both methods use simulated data to determine weights which are then applied to test beam data. These first preliminary studies yield an relative improvement of the energy resolution by roughly 15 % for the shower weighting technique and 23 % for the neural network approach compared to the energy resolution of hadronic showers without software compensation applied. The energy resolution of a highly granular 1 m3 analogue scintillator-steel hadronic calorimeter is studied using charged pions with energies from 10 GeV to 80 GeV at the CERN SPS. The energy resolution for single hadrons is determined to be approximately 58%/sqrt(E/GeV}. This resolution is improved to approximately 45%/sqrt(E/GeV) with software compensation techniques. These techniques take advantage of the event-by-event information about the substructure of hadronic showers which is provided by the imaging capabilities of the calorimeter. The energy reconstruction is improved either with corrections based on the local energy density or by applying a single correction factor to the event energy sum derived from a global measure of the shower energy density. The application of the compensation algorithms to Geant4 simulations yield resolution improvements comparable to those observed for real data. info:eu-repo/grantAgreement/EC/FP7/262025 info:eu-repo/semantics/openAccess Education Level info:eu-repo/semantics/article http://cds.cern.ch/record/1462880 JINST JINST, (2012) pp. P09017 2012-07-19
spellingShingle Detectors and Experimental Techniques
9: Advanced infrastructures for detector R&D
9.5:Highly Granular Calorimetry
Adloff, C.
Blaha, J.
Blaising, J.J.
Drancourt, C.
Espargiliere, A.
Gaglione, R.
Geffroy, N.
Karyotakis, Y.
Prast, J.
Vouters, G.
Francis, K.
Repond, J.
Smith, J.
Xia, L.
Baldolemar, E.
Li, J.
Park, S.T.
Sosebee, M.
White, A.P.
Yu, J.
Buanes, T.
Eigen, G.
Mikami, Y.
Watson, N.K.
Goto, T.
Mavromanolakis, G.
Thomson, M.A.
Ward, D.R.
Yan, W.
Benchekroun, D.
Hoummada, A.
Khoulaki, Y.
Benyamna, M.
Carloganu, C.
Fehr, F.
Gay, P.
Manen, S.
Royer, L.
Blazey, G.C.
Dyshkant, A.
Lima, J.G.R.
Zutshi, V.
Hostachy, J.Y.
Morin, L.
Cornett, U.
David, D.
Falley, G.
Gadow, K.
Gottlicher, P.
Gunter, C.
Hermberg, B.
Karstensen, S.
Krivan, F.
Lucaci-Timoce, A.I.
Lu, S.
Lutz, B.
Morozov, S.
Morgunov, V.
Reinecke, M.
Sefkow, F.
Smirnov, P.
Terwort, M.
Vargas-Trevino, A.
Feege, N.
Garutti, E.
Marchesini, I.
Ramilli, M.
Eckert, P.
Harion, T.
Kaplan, A.
Schultz-Coulon, H.Ch
Shen, W.
Stamen, R.
Tadday, A.
Bilki, B.
Norbeck, E.
Onel, Y.
Wilson, G.W.
Kawagoe, K.
Dauncey, P.D.
Magnan, A.M.
Wing, M.
Salvatore, F.
Calvo Alamillo, E.
Fouz, M.C.
Puerta-Pelayo, J.
Balagura, V.
Bobchenko, B.
Chadeeva, M.
Danilov, M.
Epifantsev, A.
Markin, O.
Mizuk, R.
Novikov, E.
Rusinov, V.
Tarkovsky, E.
Kirikova, N.
Kozlov, V.
Smirnov, P.
Soloviev, Y.
Buzhan, P.
Dolgoshein, B.
Ilyin, A.
Kantserov, V.
Kaplin, V.
Karakash, A.
Popova, E.
Smirnov, S.
Kiesling, C.
Pfau, S.
Seidel, K.
Simon, F.
Soldner, C.
Szalay, M.
Tesar, M.
Weuste, L.
Bonis, J.
Bouquet, B.
Callier, S.
Cornebise, P.
Doublet, Ph
Dulucq, F.
Faucci Giannelli, M.
Fleury, J.
Li, H.
Martin-Chassard, G.
Richard, F.
de la Taille, Ch.
Poschl, R.
Raux, L.
Seguin-Moreau, N.
Wicek, F.
Anduze, M.
Boudry, V.
Brient, J.C.
Jeans, D.
Mora de Freitas, P.
Musat, G.
Reinhard, M.
Ruan, M.
Videau, H.
Bulanek, B.
Zacek, J.
Cvach, J.
Gallus, P.
Havranek, M.
Janata, M.
Kvasnicka, J.
Lednicky, D.
Marcisovsky, M.
Polak, I.
Popule, J.
Tomasek, L.
Tomasek, M.
Ruzicka, P.
Sicho, P.
Smolik, J.
Vrba, V.
Zalesak, J.
Belhorma, B.
Ghazlane, H.
Takeshita, T.
Uozumi, S.
Sauer, J.
Weber, S.
Zeitnitz, C.
Hadronic energy resolution of a highly granular scintillator-steel hadron calorimeter using software compensation techniques
title Hadronic energy resolution of a highly granular scintillator-steel hadron calorimeter using software compensation techniques
title_full Hadronic energy resolution of a highly granular scintillator-steel hadron calorimeter using software compensation techniques
title_fullStr Hadronic energy resolution of a highly granular scintillator-steel hadron calorimeter using software compensation techniques
title_full_unstemmed Hadronic energy resolution of a highly granular scintillator-steel hadron calorimeter using software compensation techniques
title_short Hadronic energy resolution of a highly granular scintillator-steel hadron calorimeter using software compensation techniques
title_sort hadronic energy resolution of a highly granular scintillator-steel hadron calorimeter using software compensation techniques
topic Detectors and Experimental Techniques
9: Advanced infrastructures for detector R&D
9.5:Highly Granular Calorimetry
url https://dx.doi.org/10.1088/1748-0221/7/09/P09017
http://cds.cern.ch/record/1462880
http://cds.cern.ch/record/1462880
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AT mavromanolakisg hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT thomsonma hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT warddr hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT yanw hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT benchekround hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT hoummadaa hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT khoulakiy hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT benyamnam hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT carloganuc hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT fehrf hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT gayp hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT manens hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT royerl hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT blazeygc hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT dyshkanta hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT limajgr hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT zutshiv hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT hostachyjy hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT morinl hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT cornettu hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT davidd hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT falleyg hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT gadowk hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT gottlicherp hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT gunterc hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT hermbergb hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT karstensens hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT krivanf hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT lucacitimoceai hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT lus hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT lutzb hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT morozovs hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT morgunovv hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT reineckem hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT sefkowf hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT smirnovp hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT terwortm hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT vargastrevinoa hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT feegen hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT garuttie hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT marchesinii hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT ramillim hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT eckertp hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT hariont hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT kaplana hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT schultzcoulonhch hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT shenw hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT stamenr hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT taddaya hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT bilkib hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT norbecke hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT onely hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT wilsongw hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT kawagoek hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT daunceypd hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT magnanam hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT wingm hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT salvatoref hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT calvoalamilloe hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT fouzmc hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT puertapelayoj hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT balagurav hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT bobchenkob hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT chadeevam hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT danilovm hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT epifantseva hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT markino hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT mizukr hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT novikove hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT rusinovv hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT tarkovskye hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT kirikovan hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT kozlovv hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT smirnovp hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT solovievy hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT buzhanp hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT dolgosheinb hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT ilyina hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT kantserovv hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT kaplinv hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT karakasha hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT popovae hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT smirnovs hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT kieslingc hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT pfaus hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT seidelk hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT simonf hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT soldnerc hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT szalaym hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT tesarm hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT weustel hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT bonisj hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT bouquetb hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT calliers hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT cornebisep hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT doubletph hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT dulucqf hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT fauccigiannellim hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT fleuryj hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT lih hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT martinchassardg hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT richardf hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT delataillech hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT poschlr hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT rauxl hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT seguinmoreaun hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT wicekf hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT anduzem hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT boudryv hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT brientjc hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT jeansd hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT moradefreitasp hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT musatg hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT reinhardm hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT ruanm hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT videauh hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT bulanekb hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT zacekj hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT cvachj hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT gallusp hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT havranekm hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT janatam hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT kvasnickaj hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT lednickyd hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT marcisovskym hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT polaki hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT populej hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT tomasekl hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT tomasekm hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT ruzickap hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT sichop hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT smolikj hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT vrbav hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT zalesakj hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT belhormab hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT ghazlaneh hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT takeshitat hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT uozumis hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT sauerj hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT webers hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques
AT zeitnitzc hadronicenergyresolutionofahighlygranularscintillatorsteelhadroncalorimeterusingsoftwarecompensationtechniques

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