Cargando…

Beam test evaluation of electromagnetic calorimeter modules made from proton-damaged PbWO$_4$ crystals

The performance of electromagnetic calorimeter modules made of proton-irradiated PbWO(4) crystals has been studied in beam tests. The modules, similar to those used in the Endcaps of the CMS electromagnetic calorimeter (ECAL), were formed from 5×5 matrices of PbWO(4) crystals, which had previously b...

Descripción completa

Detalles Bibliográficos
Autores principales:	Adams, T, Adzic, P, Ahuja, S, Anderson, D, Andrews, M B, Antropov, I, Antunovic, Z, Arcidiacono, R, Arenton, M W, Argiro, S, Askew, A, Attikis, A, Auffray, E, Baccaro, S, Baffioni, S, Bailleux, D, Baillon, P, Barney, D, Barone, L, Bartoloni, A, Bartosik, N, Becheva, E, Bein, S, Beirao Da Cruz E Silva, C, Bell, K W, Benaglia, A, Bendavid, J, Berry, D, Besancon, M, Betev, B, Bialas, W, Bianchini, L, Biino, C, Bitioukov, S, Bornheim, A, Brianza, L, Brinkerhoff, A, Brown, R M, Brummitt, A, Busson, P, Candelise, V, Carrillo Montoya, C A, Cartiglia, N, Cavallari, F, Chang, Y W, Chen, K F, Chevenier, G, Chipaux, R, Clement, E, Cockerill, D J A, Corpe, L, Couderc, F, Courbon, B, Cox, B, Cucciati, G, Cussans, D, D'imperio, G, Da Silva Di Calafiori, D R, Dafinei, I, Daguin, J, Daskalakis, G, Tinoco Mendes, A D, De Guio, F, Degano, A, Dejardin, M, Del Re, D, Della Ricca, G, Denegri, D, Depasse, P, Dev, N, Deyrail, D, Di Marco, E, Diamond, B, Diemoz, M, Dissertori, G, Dittmar, M, Djambazov, L, Doan, T H, Dobrzynski, L, Dolgopolov, A, Donega, M, Dordevic, M, Dröge, M, Durkin, T, Dutta, D, El Mamouni, H, Elliott-Peisert, A, Elmalis, E, Fabbro, B, Fasanella, G, Faure, J, Fay, J, Fedorov, A, Ferri, F, Francis, B, Frank, N, Franzoni, G, Funk, W, Ganjour, S, Gascon, S, Gastal, M, Geerebaert, Y, Gelli, S, Gerosa, R, Ghezzi, A, Giakoumopoulou, V A, Givernaud, A, Gninenko, S, Godinovic, N, Goeckner-Wald, N, Golubev, N, Govoni, P, Gras, P, Guilloux, F, Haller, C, Hamel de Monchenault, G, Hansen, M, Hansen, P, Hardenbrook, J, Heath, H F, Hill, J, Hirosky, R, Hobson, P R, Holme, O, Honma, A, Hou, W -S, Hsiung, Y, Iiyama, Y, Ille, B, Ingram, Q, Jain, S, Jarry, P, Jessop, C, Jovanovic, D, Kachanov, V, Kalafut, S, Kao, K Y, Kellams, N, Kesisoglou, S, Khatiwada, A, Konoplyannikov, A, Konstantinov, D, Korzhik, M, Kovac, M, Kubota, Y, Kucher, I, Kumar, A, Kuo, C, Kyberd, P, Kyriakis, A, Latyshev, G, Lecoq, P, Ledovskoy, A, Lei, Y J, Lelas, D, Lethuillier, M, Li, H, Lin, W, Liu, Y F, Locci, E, Longo, E, Loukas, D, Lu, R -S, Lucchini, M T, Lustermann, W, Mackay, C K, Magniette, F, Malcles, J, Malhotra, S, Mandjavidze, I, Maravin, Y, Margaroli, F, Marinelli, N, Marini, A C, Martelli, A, Marzocchi, B, Massironi, A, Matveev, V, Mechinsky, V, Meng, F, Meridiani, P, Micheli, F, Milosevic, J, Mousa, J, Musella, P, Nessi-Tedaldi, F, Neu, C, Newman, H, Nicolaou, C, Nourbakhsh, S, Obertino, M M, Organtini, G, Orimoto, T, Paganini, P, Paganis, E, Paganoni, M, Pandolfi, F, Panov, V, Paramatti, R, Parracho, P, Pastrone, N, Paulini, M, Pauss, F, Pauwels, K, Pellegrino, F, Pena, C, Perniè, L, Peruzzi, M, Petrakou, E, Petyt, D, Pigazzini, S, Piroué, P, Planer, M, Plestina, R, Polic, D, Prosper, H, Ptochos, F, Puljak, I, Quittnat, M, Ragazzi, S, Rahatlou, S, Rander, J, Ranjan, K, Rasteiro Da Silva, J, Razis, P A, Romanteau, T, Rosowsky, A, Rovelli, C, Rusack, R, Salerno, R, Santanastasio, F, Santra, A, Schönenberger, M, Seez, C, Sharma, V, Shepherd-Themistocleous, C, Shiu, J G, Shivpuri, R K, Singovsky, A, Sinthuprasith, T, Sirois, Y, Smiljkovic, N, Soffi, L, Sun, M, Symonds, P, Tabarelli de Fatis, T, Tambe, N, Tarasov, I, Taroni, S, Teixeira De Lima, R, Thea, A, Theofilatos, K, Thiant, F, Titov, M, Torbet, M, Trapani, P P, Tropea, P, Tsai, J f, Tsirou, A, Turkewitz, J, Tyurin, N, Tzeng, Y M, Uzunian, A, Valls, N, Varela, J, Veeraraghavan, V, Verdini, P G, Vichoudis, P, Vlassov, E, Wang, J, Wang, T, Weinberg, M, Wolfe, E, Wood, J, Zabi, A, Zahid, S, Zelepoukine, S, Zghiche, A, Zhang, L, Zhu, K, Zhu, R, Zuyeuskiy, R
Lenguaje:	eng
Publicado:	2016
Materias:	Detectors and Experimental Techniques
Acceso en línea:	https://dx.doi.org/10.1088/1748-0221/11/04/P04012 http://cds.cern.ch/record/2255803

_version_	1780953727760334848
author	Adams, T Adzic, P Ahuja, S Anderson, D Andrews, M B Antropov, I Antunovic, Z Arcidiacono, R Arenton, M W Argiro, S Askew, A Attikis, A Auffray, E Baccaro, S Baffioni, S Bailleux, D Baillon, P Barney, D Barone, L Bartoloni, A Bartosik, N Becheva, E Bein, S Beirao Da Cruz E Silva, C Bell, K W Benaglia, A Bendavid, J Berry, D Besancon, M Betev, B Bialas, W Bianchini, L Biino, C Bitioukov, S Bornheim, A Brianza, L Brinkerhoff, A Brown, R M Brummitt, A Busson, P Candelise, V Carrillo Montoya, C A Cartiglia, N Cavallari, F Chang, Y W Chen, K F Chevenier, G Chipaux, R Clement, E Cockerill, D J A Corpe, L Couderc, F Courbon, B Cox, B Cucciati, G Cussans, D D'imperio, G Da Silva Di Calafiori, D R Dafinei, I Daguin, J Daskalakis, G Tinoco Mendes, A D De Guio, F Degano, A Dejardin, M Del Re, D Della Ricca, G Denegri, D Depasse, P Dev, N Deyrail, D Di Marco, E Diamond, B Diemoz, M Dissertori, G Dittmar, M Djambazov, L Doan, T H Dobrzynski, L Dolgopolov, A Donega, M Dordevic, M Dröge, M Durkin, T Dutta, D El Mamouni, H Elliott-Peisert, A Elmalis, E Fabbro, B Fasanella, G Faure, J Fay, J Fedorov, A Ferri, F Francis, B Frank, N Franzoni, G Funk, W Ganjour, S Gascon, S Gastal, M Geerebaert, Y Gelli, S Gerosa, R Ghezzi, A Giakoumopoulou, V A Givernaud, A Gninenko, S Godinovic, N Goeckner-Wald, N Golubev, N Govoni, P Gras, P Guilloux, F Haller, C Hamel de Monchenault, G Hansen, M Hansen, P Hardenbrook, J Heath, H F Hill, J Hirosky, R Hobson, P R Holme, O Honma, A Hou, W -S Hsiung, Y Iiyama, Y Ille, B Ingram, Q Jain, S Jarry, P Jessop, C Jovanovic, D Kachanov, V Kalafut, S Kao, K Y Kellams, N Kesisoglou, S Khatiwada, A Konoplyannikov, A Konstantinov, D Korzhik, M Kovac, M Kubota, Y Kucher, I Kumar, A Kumar, A Kuo, C Kyberd, P Kyriakis, A Latyshev, G Lecoq, P Ledovskoy, A Lei, Y J Lelas, D Lethuillier, M Li, H Lin, W Liu, Y F Locci, E Longo, E Loukas, D Lu, R -S Lucchini, M T Lustermann, W Mackay, C K Magniette, F Malcles, J Malhotra, S Mandjavidze, I Maravin, Y Margaroli, F Marinelli, N Marini, A C Martelli, A Marzocchi, B Massironi, A Matveev, V Mechinsky, V Meng, F Meridiani, P Micheli, F Milosevic, J Mousa, J Musella, P Nessi-Tedaldi, F Neu, C Newman, H Nicolaou, C Nourbakhsh, S Obertino, M M Organtini, G Orimoto, T Paganini, P Paganis, E Paganoni, M Pandolfi, F Panov, V Paramatti, R Parracho, P Pastrone, N Paulini, M Pauss, F Pauwels, K Pellegrino, F Pena, C Perniè, L Peruzzi, M Petrakou, E Petyt, D Pigazzini, S Piroué, P Planer, M Plestina, R Polic, D Prosper, H Ptochos, F Puljak, I Quittnat, M Ragazzi, S Rahatlou, S Rander, J Ranjan, K Rasteiro Da Silva, J Razis, P A Romanteau, T Rosowsky, A Rovelli, C Rusack, R Salerno, R Santanastasio, F Santra, A Schönenberger, M Seez, C Sharma, V Shepherd-Themistocleous, C Shiu, J G Shivpuri, R K Singovsky, A Sinthuprasith, T Sirois, Y Smiljkovic, N Soffi, L Sun, M Symonds, P Tabarelli de Fatis, T Tambe, N Tarasov, I Taroni, S Teixeira De Lima, R Thea, A Theofilatos, K Thiant, F Titov, M Torbet, M Trapani, P P Tropea, P Tsai, J f Tsirou, A Turkewitz, J Tyurin, N Tzeng, Y M Uzunian, A Valls, N Varela, J Veeraraghavan, V Verdini, P G Vichoudis, P Vlassov, E Wang, J Wang, T Weinberg, M Wolfe, E Wood, J Zabi, A Zahid, S Zelepoukine, S Zghiche, A Zhang, L Zhu, K Zhu, R Zuyeuskiy, R
author_facet	Adams, T Adzic, P Ahuja, S Anderson, D Andrews, M B Antropov, I Antunovic, Z Arcidiacono, R Arenton, M W Argiro, S Askew, A Attikis, A Auffray, E Baccaro, S Baffioni, S Bailleux, D Baillon, P Barney, D Barone, L Bartoloni, A Bartosik, N Becheva, E Bein, S Beirao Da Cruz E Silva, C Bell, K W Benaglia, A Bendavid, J Berry, D Besancon, M Betev, B Bialas, W Bianchini, L Biino, C Bitioukov, S Bornheim, A Brianza, L Brinkerhoff, A Brown, R M Brummitt, A Busson, P Candelise, V Carrillo Montoya, C A Cartiglia, N Cavallari, F Chang, Y W Chen, K F Chevenier, G Chipaux, R Clement, E Cockerill, D J A Corpe, L Couderc, F Courbon, B Cox, B Cucciati, G Cussans, D D'imperio, G Da Silva Di Calafiori, D R Dafinei, I Daguin, J Daskalakis, G Tinoco Mendes, A D De Guio, F Degano, A Dejardin, M Del Re, D Della Ricca, G Denegri, D Depasse, P Dev, N Deyrail, D Di Marco, E Diamond, B Diemoz, M Dissertori, G Dittmar, M Djambazov, L Doan, T H Dobrzynski, L Dolgopolov, A Donega, M Dordevic, M Dröge, M Durkin, T Dutta, D El Mamouni, H Elliott-Peisert, A Elmalis, E Fabbro, B Fasanella, G Faure, J Fay, J Fedorov, A Ferri, F Francis, B Frank, N Franzoni, G Funk, W Ganjour, S Gascon, S Gastal, M Geerebaert, Y Gelli, S Gerosa, R Ghezzi, A Giakoumopoulou, V A Givernaud, A Gninenko, S Godinovic, N Goeckner-Wald, N Golubev, N Govoni, P Gras, P Guilloux, F Haller, C Hamel de Monchenault, G Hansen, M Hansen, P Hardenbrook, J Heath, H F Hill, J Hirosky, R Hobson, P R Holme, O Honma, A Hou, W -S Hsiung, Y Iiyama, Y Ille, B Ingram, Q Jain, S Jarry, P Jessop, C Jovanovic, D Kachanov, V Kalafut, S Kao, K Y Kellams, N Kesisoglou, S Khatiwada, A Konoplyannikov, A Konstantinov, D Korzhik, M Kovac, M Kubota, Y Kucher, I Kumar, A Kumar, A Kuo, C Kyberd, P Kyriakis, A Latyshev, G Lecoq, P Ledovskoy, A Lei, Y J Lelas, D Lethuillier, M Li, H Lin, W Liu, Y F Locci, E Longo, E Loukas, D Lu, R -S Lucchini, M T Lustermann, W Mackay, C K Magniette, F Malcles, J Malhotra, S Mandjavidze, I Maravin, Y Margaroli, F Marinelli, N Marini, A C Martelli, A Marzocchi, B Massironi, A Matveev, V Mechinsky, V Meng, F Meridiani, P Micheli, F Milosevic, J Mousa, J Musella, P Nessi-Tedaldi, F Neu, C Newman, H Nicolaou, C Nourbakhsh, S Obertino, M M Organtini, G Orimoto, T Paganini, P Paganis, E Paganoni, M Pandolfi, F Panov, V Paramatti, R Parracho, P Pastrone, N Paulini, M Pauss, F Pauwels, K Pellegrino, F Pena, C Perniè, L Peruzzi, M Petrakou, E Petyt, D Pigazzini, S Piroué, P Planer, M Plestina, R Polic, D Prosper, H Ptochos, F Puljak, I Quittnat, M Ragazzi, S Rahatlou, S Rander, J Ranjan, K Rasteiro Da Silva, J Razis, P A Romanteau, T Rosowsky, A Rovelli, C Rusack, R Salerno, R Santanastasio, F Santra, A Schönenberger, M Seez, C Sharma, V Shepherd-Themistocleous, C Shiu, J G Shivpuri, R K Singovsky, A Sinthuprasith, T Sirois, Y Smiljkovic, N Soffi, L Sun, M Symonds, P Tabarelli de Fatis, T Tambe, N Tarasov, I Taroni, S Teixeira De Lima, R Thea, A Theofilatos, K Thiant, F Titov, M Torbet, M Trapani, P P Tropea, P Tsai, J f Tsirou, A Turkewitz, J Tyurin, N Tzeng, Y M Uzunian, A Valls, N Varela, J Veeraraghavan, V Verdini, P G Vichoudis, P Vlassov, E Wang, J Wang, T Weinberg, M Wolfe, E Wood, J Zabi, A Zahid, S Zelepoukine, S Zghiche, A Zhang, L Zhu, K Zhu, R Zuyeuskiy, R
author_sort	Adams, T
collection	CERN
description	The performance of electromagnetic calorimeter modules made of proton-irradiated PbWO(4) crystals has been studied in beam tests. The modules, similar to those used in the Endcaps of the CMS electromagnetic calorimeter (ECAL), were formed from 5×5 matrices of PbWO(4) crystals, which had previously been exposed to 24 GeV protons up to integrated fluences between 2.1× 10(13) and 1.3× 10(14) cm(−)(2). These correspond to the predicted charged-hadron fluences in the ECAL Endcaps at pseudorapidity η = 2.6 after about 500 fb(−)(1) and 3000 fb(−)(1) respectively, corresponding to the end of the LHC and High Luminosity LHC operation periods. The irradiated crystals have a lower light transmission for wavelengths corresponding to the scintillation light, and a correspondingly reduced light output. A comparison with four crystals irradiated in situ in CMS showed no significant rate dependence of hadron-induced damage. A degradation of the energy resolution and a non-linear response to electron showers are observed in damaged crystals. Direct measurements of the light output from the crystals show the amplitude decreasing and pulse becoming faster as the fluence increases. The latter is interpreted, through comparison with simulation, as a side-effect of the degradation in light transmission. The experimental results obtained can be used to estimate the long term performance of the CMS ECAL.
id	oai-inspirehep.net-1449140
institution	Organización Europea para la Investigación Nuclear
language	eng
publishDate	2016
record_format	invenio
spelling	oai-inspirehep.net-14491402022-08-10T12:42:46Zdoi:10.1088/1748-0221/11/04/P04012http://cds.cern.ch/record/2255803engAdams, TAdzic, PAhuja, SAnderson, DAndrews, M BAntropov, IAntunovic, ZArcidiacono, RArenton, M WArgiro, SAskew, AAttikis, AAuffray, EBaccaro, SBaffioni, SBailleux, DBaillon, PBarney, DBarone, LBartoloni, ABartosik, NBecheva, EBein, SBeirao Da Cruz E Silva, CBell, K WBenaglia, ABendavid, JBerry, DBesancon, MBetev, BBialas, WBianchini, LBiino, CBitioukov, SBornheim, ABrianza, LBrinkerhoff, ABrown, R MBrummitt, ABusson, PCandelise, VCarrillo Montoya, C ACartiglia, NCavallari, FChang, Y WChen, K FChevenier, GChipaux, RClement, ECockerill, D J ACorpe, LCouderc, FCourbon, BCox, BCucciati, GCussans, DD'imperio, GDa Silva Di Calafiori, D RDafinei, IDaguin, JDaskalakis, GTinoco Mendes, A DDe Guio, FDegano, ADejardin, MDel Re, DDella Ricca, GDenegri, DDepasse, PDev, NDeyrail, DDi Marco, EDiamond, BDiemoz, MDissertori, GDittmar, MDjambazov, LDoan, T HDobrzynski, LDolgopolov, ADonega, MDordevic, MDröge, MDurkin, TDutta, DEl Mamouni, HElliott-Peisert, AElmalis, EFabbro, BFasanella, GFaure, JFay, JFedorov, AFerri, FFrancis, BFrank, NFranzoni, GFunk, WGanjour, SGascon, SGastal, MGeerebaert, YGelli, SGerosa, RGhezzi, AGiakoumopoulou, V AGivernaud, AGninenko, SGodinovic, NGoeckner-Wald, NGolubev, NGovoni, PGras, PGuilloux, FHaller, CHamel de Monchenault, GHansen, MHansen, PHardenbrook, JHeath, H FHill, JHirosky, RHobson, P RHolme, OHonma, AHou, W -SHsiung, YIiyama, YIlle, BIngram, QJain, SJarry, PJessop, CJovanovic, DKachanov, VKalafut, SKao, K YKellams, NKesisoglou, SKhatiwada, AKonoplyannikov, AKonstantinov, DKorzhik, MKovac, MKubota, YKucher, IKumar, AKumar, AKuo, CKyberd, PKyriakis, ALatyshev, GLecoq, PLedovskoy, ALei, Y JLelas, DLethuillier, MLi, HLin, WLiu, Y FLocci, ELongo, ELoukas, DLu, R -SLucchini, M TLustermann, WMackay, C KMagniette, FMalcles, JMalhotra, SMandjavidze, IMaravin, YMargaroli, FMarinelli, NMarini, A CMartelli, AMarzocchi, BMassironi, AMatveev, VMechinsky, VMeng, FMeridiani, PMicheli, FMilosevic, JMousa, JMusella, PNessi-Tedaldi, FNeu, CNewman, HNicolaou, CNourbakhsh, SObertino, M MOrgantini, GOrimoto, TPaganini, PPaganis, EPaganoni, MPandolfi, FPanov, VParamatti, RParracho, PPastrone, NPaulini, MPauss, FPauwels, KPellegrino, FPena, CPerniè, LPeruzzi, MPetrakou, EPetyt, DPigazzini, SPiroué, PPlaner, MPlestina, RPolic, DProsper, HPtochos, FPuljak, IQuittnat, MRagazzi, SRahatlou, SRander, JRanjan, KRasteiro Da Silva, JRazis, P ARomanteau, TRosowsky, ARovelli, CRusack, RSalerno, RSantanastasio, FSantra, ASchönenberger, MSeez, CSharma, VShepherd-Themistocleous, CShiu, J GShivpuri, R KSingovsky, ASinthuprasith, TSirois, YSmiljkovic, NSoffi, LSun, MSymonds, PTabarelli de Fatis, TTambe, NTarasov, ITaroni, STeixeira De Lima, RThea, ATheofilatos, KThiant, FTitov, MTorbet, MTrapani, P PTropea, PTsai, J fTsirou, ATurkewitz, JTyurin, NTzeng, Y MUzunian, AValls, NVarela, JVeeraraghavan, VVerdini, P GVichoudis, PVlassov, EWang, JWang, TWeinberg, MWolfe, EWood, JZabi, AZahid, SZelepoukine, SZghiche, AZhang, LZhu, KZhu, RZuyeuskiy, RBeam test evaluation of electromagnetic calorimeter modules made from proton-damaged PbWO$_4$ crystalsDetectors and Experimental TechniquesThe performance of electromagnetic calorimeter modules made of proton-irradiated PbWO(4) crystals has been studied in beam tests. The modules, similar to those used in the Endcaps of the CMS electromagnetic calorimeter (ECAL), were formed from 5×5 matrices of PbWO(4) crystals, which had previously been exposed to 24 GeV protons up to integrated fluences between 2.1× 10(13) and 1.3× 10(14) cm(−)(2). These correspond to the predicted charged-hadron fluences in the ECAL Endcaps at pseudorapidity η = 2.6 after about 500 fb(−)(1) and 3000 fb(−)(1) respectively, corresponding to the end of the LHC and High Luminosity LHC operation periods. The irradiated crystals have a lower light transmission for wavelengths corresponding to the scintillation light, and a correspondingly reduced light output. A comparison with four crystals irradiated in situ in CMS showed no significant rate dependence of hadron-induced damage. A degradation of the energy resolution and a non-linear response to electron showers are observed in damaged crystals. Direct measurements of the light output from the crystals show the amplitude decreasing and pulse becoming faster as the fluence increases. The latter is interpreted, through comparison with simulation, as a side-effect of the degradation in light transmission. The experimental results obtained can be used to estimate the long term performance of the CMS ECAL.FERMILAB-PUB-16-403-CMSoai:inspirehep.net:14491402016
spellingShingle	Detectors and Experimental Techniques Adams, T Adzic, P Ahuja, S Anderson, D Andrews, M B Antropov, I Antunovic, Z Arcidiacono, R Arenton, M W Argiro, S Askew, A Attikis, A Auffray, E Baccaro, S Baffioni, S Bailleux, D Baillon, P Barney, D Barone, L Bartoloni, A Bartosik, N Becheva, E Bein, S Beirao Da Cruz E Silva, C Bell, K W Benaglia, A Bendavid, J Berry, D Besancon, M Betev, B Bialas, W Bianchini, L Biino, C Bitioukov, S Bornheim, A Brianza, L Brinkerhoff, A Brown, R M Brummitt, A Busson, P Candelise, V Carrillo Montoya, C A Cartiglia, N Cavallari, F Chang, Y W Chen, K F Chevenier, G Chipaux, R Clement, E Cockerill, D J A Corpe, L Couderc, F Courbon, B Cox, B Cucciati, G Cussans, D D'imperio, G Da Silva Di Calafiori, D R Dafinei, I Daguin, J Daskalakis, G Tinoco Mendes, A D De Guio, F Degano, A Dejardin, M Del Re, D Della Ricca, G Denegri, D Depasse, P Dev, N Deyrail, D Di Marco, E Diamond, B Diemoz, M Dissertori, G Dittmar, M Djambazov, L Doan, T H Dobrzynski, L Dolgopolov, A Donega, M Dordevic, M Dröge, M Durkin, T Dutta, D El Mamouni, H Elliott-Peisert, A Elmalis, E Fabbro, B Fasanella, G Faure, J Fay, J Fedorov, A Ferri, F Francis, B Frank, N Franzoni, G Funk, W Ganjour, S Gascon, S Gastal, M Geerebaert, Y Gelli, S Gerosa, R Ghezzi, A Giakoumopoulou, V A Givernaud, A Gninenko, S Godinovic, N Goeckner-Wald, N Golubev, N Govoni, P Gras, P Guilloux, F Haller, C Hamel de Monchenault, G Hansen, M Hansen, P Hardenbrook, J Heath, H F Hill, J Hirosky, R Hobson, P R Holme, O Honma, A Hou, W -S Hsiung, Y Iiyama, Y Ille, B Ingram, Q Jain, S Jarry, P Jessop, C Jovanovic, D Kachanov, V Kalafut, S Kao, K Y Kellams, N Kesisoglou, S Khatiwada, A Konoplyannikov, A Konstantinov, D Korzhik, M Kovac, M Kubota, Y Kucher, I Kumar, A Kumar, A Kuo, C Kyberd, P Kyriakis, A Latyshev, G Lecoq, P Ledovskoy, A Lei, Y J Lelas, D Lethuillier, M Li, H Lin, W Liu, Y F Locci, E Longo, E Loukas, D Lu, R -S Lucchini, M T Lustermann, W Mackay, C K Magniette, F Malcles, J Malhotra, S Mandjavidze, I Maravin, Y Margaroli, F Marinelli, N Marini, A C Martelli, A Marzocchi, B Massironi, A Matveev, V Mechinsky, V Meng, F Meridiani, P Micheli, F Milosevic, J Mousa, J Musella, P Nessi-Tedaldi, F Neu, C Newman, H Nicolaou, C Nourbakhsh, S Obertino, M M Organtini, G Orimoto, T Paganini, P Paganis, E Paganoni, M Pandolfi, F Panov, V Paramatti, R Parracho, P Pastrone, N Paulini, M Pauss, F Pauwels, K Pellegrino, F Pena, C Perniè, L Peruzzi, M Petrakou, E Petyt, D Pigazzini, S Piroué, P Planer, M Plestina, R Polic, D Prosper, H Ptochos, F Puljak, I Quittnat, M Ragazzi, S Rahatlou, S Rander, J Ranjan, K Rasteiro Da Silva, J Razis, P A Romanteau, T Rosowsky, A Rovelli, C Rusack, R Salerno, R Santanastasio, F Santra, A Schönenberger, M Seez, C Sharma, V Shepherd-Themistocleous, C Shiu, J G Shivpuri, R K Singovsky, A Sinthuprasith, T Sirois, Y Smiljkovic, N Soffi, L Sun, M Symonds, P Tabarelli de Fatis, T Tambe, N Tarasov, I Taroni, S Teixeira De Lima, R Thea, A Theofilatos, K Thiant, F Titov, M Torbet, M Trapani, P P Tropea, P Tsai, J f Tsirou, A Turkewitz, J Tyurin, N Tzeng, Y M Uzunian, A Valls, N Varela, J Veeraraghavan, V Verdini, P G Vichoudis, P Vlassov, E Wang, J Wang, T Weinberg, M Wolfe, E Wood, J Zabi, A Zahid, S Zelepoukine, S Zghiche, A Zhang, L Zhu, K Zhu, R Zuyeuskiy, R Beam test evaluation of electromagnetic calorimeter modules made from proton-damaged PbWO$_4$ crystals
title	Beam test evaluation of electromagnetic calorimeter modules made from proton-damaged PbWO$_4$ crystals
title_full	Beam test evaluation of electromagnetic calorimeter modules made from proton-damaged PbWO$_4$ crystals
title_fullStr	Beam test evaluation of electromagnetic calorimeter modules made from proton-damaged PbWO$_4$ crystals
title_full_unstemmed	Beam test evaluation of electromagnetic calorimeter modules made from proton-damaged PbWO$_4$ crystals
title_short	Beam test evaluation of electromagnetic calorimeter modules made from proton-damaged PbWO$_4$ crystals
title_sort	beam test evaluation of electromagnetic calorimeter modules made from proton-damaged pbwo$_4$ crystals
topic	Detectors and Experimental Techniques
url	https://dx.doi.org/10.1088/1748-0221/11/04/P04012 http://cds.cern.ch/record/2255803
work_keys_str_mv	AT adamst beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT adzicp beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT ahujas beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT andersond beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT andrewsmb beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT antropovi beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT antunovicz beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT arcidiaconor beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT arentonmw beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT argiros beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT askewa beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT attikisa beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT auffraye beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT baccaros beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT baffionis beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT bailleuxd beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT baillonp beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT barneyd beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT baronel beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT bartolonia beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT bartosikn beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT bechevae beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT beins beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT beiraodacruzesilvac beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT bellkw beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT benagliaa beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT bendavidj beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT berryd beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT besanconm beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT betevb beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT bialasw beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT bianchinil beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT biinoc beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT bitioukovs beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT bornheima beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT brianzal beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT brinkerhoffa beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT brownrm beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT brummitta beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT bussonp beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT candelisev beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT carrillomontoyaca beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT cartiglian beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT cavallarif beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT changyw beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT chenkf beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT chevenierg beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT chipauxr beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT clemente beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT cockerilldja beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT corpel beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT coudercf beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT courbonb beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT coxb beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT cucciatig beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT cussansd beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT dimperiog beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT dasilvadicalafioridr beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT dafineii beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT daguinj beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT daskalakisg beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT tinocomendesad beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT deguiof beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT deganoa beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT dejardinm beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT delred beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT dellariccag beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT denegrid beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT depassep beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT devn beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT deyraild beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT dimarcoe beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT diamondb beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT diemozm beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT dissertorig beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT dittmarm beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT djambazovl beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT doanth beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT dobrzynskil beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT dolgopolova beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT donegam beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT dordevicm beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT drogem beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT durkint beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT duttad beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT elmamounih beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT elliottpeiserta beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT elmalise beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT fabbrob beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT fasanellag beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT faurej beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT fayj beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT fedorova beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT ferrif beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT francisb beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT frankn beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT franzonig beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT funkw beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT ganjours beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT gascons beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT gastalm beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT geerebaerty beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT gellis beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT gerosar beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT ghezzia beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT giakoumopoulouva beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT givernauda beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT gninenkos beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT godinovicn beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT goecknerwaldn beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT golubevn beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT govonip beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT grasp beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT guillouxf beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT hallerc beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT hameldemonchenaultg beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT hansenm beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT hansenp beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT hardenbrookj beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT heathhf beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT hillj beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT hiroskyr beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT hobsonpr beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT holmeo beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT honmaa beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT houws beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT hsiungy beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT iiyamay beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT illeb beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT ingramq beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT jains beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT jarryp beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT jessopc beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT jovanovicd beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT kachanovv beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT kalafuts beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT kaoky beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT kellamsn beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT kesisoglous beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT khatiwadaa beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT konoplyannikova beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT konstantinovd beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT korzhikm beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT kovacm beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT kubotay beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT kucheri beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT kumara beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT kumara beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT kuoc beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT kyberdp beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT kyriakisa beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT latyshevg beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT lecoqp beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT ledovskoya beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT leiyj beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT lelasd beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT lethuillierm beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT lih beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT linw beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT liuyf beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT loccie beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT longoe beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT loukasd beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT lurs beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT lucchinimt beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT lustermannw beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT mackayck beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT magniettef beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT malclesj beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT malhotras beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT mandjavidzei beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT maraviny beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT margarolif beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT marinellin beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT mariniac beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT martellia beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT marzocchib beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT massironia beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT matveevv beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT mechinskyv beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT mengf beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT meridianip beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT michelif beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT milosevicj beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT mousaj beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT musellap beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT nessitedaldif beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT neuc beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT newmanh beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT nicolaouc beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT nourbakhshs beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT obertinomm beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT organtinig beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT orimotot beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT paganinip beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT paganise beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT paganonim beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT pandolfif beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT panovv beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT paramattir beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT parrachop beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT pastronen beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT paulinim beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT paussf beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT pauwelsk beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT pellegrinof beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT penac beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT perniel beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT peruzzim beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT petrakoue beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT petytd beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT pigazzinis beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT pirouep beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT planerm beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT plestinar beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT policd beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT prosperh beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT ptochosf beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT puljaki beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT quittnatm beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT ragazzis beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT rahatlous beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT randerj beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT ranjank beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT rasteirodasilvaj beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT razispa beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT romanteaut beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT rosowskya beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT rovellic beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT rusackr beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT salernor beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT santanastasiof beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT santraa beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT schonenbergerm beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT seezc beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT sharmav beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT shepherdthemistocleousc beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT shiujg beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT shivpurirk beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT singovskya beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT sinthuprasitht beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT siroisy beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT smiljkovicn beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT soffil beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT sunm beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT symondsp beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT tabarellidefatist beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT tamben beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT tarasovi beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT taronis beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT teixeiradelimar beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT theaa beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT theofilatosk beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT thiantf beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT titovm beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT torbetm beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT trapanipp beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT tropeap beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT tsaijf beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT tsiroua beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT turkewitzj beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT tyurinn beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT tzengym beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT uzuniana beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT vallsn beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT varelaj beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT veeraraghavanv beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT verdinipg beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT vichoudisp beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT vlassove beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT wangj beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT wangt beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT weinbergm beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT wolfee beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT woodj beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT zabia beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT zahids beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT zelepoukines beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT zghichea beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT zhangl beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT zhuk beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT zhur beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals AT zuyeuskiyr beamtestevaluationofelectromagneticcalorimetermodulesmadefromprotondamagedpbwo4crystals

Beam test evaluation of electromagnetic calorimeter modules made from proton-damaged PbWO$_4$ crystals

Ejemplares similares