001451084 001__ 1451084
001451084 003__ SzGeCERN
001451084 005__ 20210715193612.0
001451084 0248_ $$aoai:cds.cern.ch:1451084$$pcerncds:FULLTEXT$$pcerncds:CERN:FULLTEXT$$pcerncds:CERN
001451084 035__ $$9arXiv$$aoai:arXiv.org:1205.4864
001451084 035__ $$9Inspire$$a1115610
001451084 037__ $$9arXiv$$aarXiv:1205.4864$$cphysics.ins-det
001451084 041__ $$aeng
001451084 100__ $$aIvashkin, A.$$uMoscow, INR
001451084 245__ $$aHadron calorimeter with MAPD readout in the NA61/SHINE experiment
001451084 269__ $$c23 May 2012
001451084 260__ $$c2012
001451084 300__ $$a4 p
001451084 520__ $$aThe modular hadron calorimeter with micro-pixel avalanche photodiodes readout for the NA61/SHINE experiment at the CERN SPS is presented. The calorimeter consists of 44 independent modules with lead-scintillator sandwich structure. The light from the scintillator tiles is captured by and transported with WLS-fibers embedded in scintillator grooves. The construction provides a longitudinal segmentation of the module in 10 sections with independent MAPD readout. MAPDs with pixel density of $~10^{4}$/mm$^2$ ensure good linearity of calorimeter response in a wide dynamical range. The performance of the calorimeter prototype in a beam test is reported.
001451084 520__ $$9arXiv$$aThe modular hadron calorimeter with micro-pixel avalanche photodiodes readout for the NA61/SHINE experiment at the CERN SPS is presented. The calorimeter consists of 44 independent modules with lead-scintillator sandwich structure. The light from the scintillator tiles is captured by and transported with WLS-fibers embedded in scintillator grooves. The construction provides a longitudinal segmentation of the module in 10 sections with independent MAPD readout. MAPDs with pixel density of $~10^{4}$/mm$^2$ ensure good linearity of calorimeter response in a wide dynamical range. The performance of the calorimeter prototype in a beam test is reported.
001451084 595__ $$aLANL EDS
001451084 65017 $$2arXiv$$aDetectors and Experimental Techniques
001451084 65027 $$2arXiv$$aParticle Physics - Experiment
001451084 693__ $$aCERN SPS$$eSHINE NA61
001451084 693__ $$aCERN SPS$$bH2
001451084 693__ $$aCERN PS$$bT10
001451084 695__ $$9LANL EDS$$aphysics.ins-det
001451084 690C_ $$aPREPRINT
001451084 695__ $$9LANL EDS$$ahep-ex
001451084 690C_ $$aCERN
001451084 700__ $$aAkhmadov, F.$$uDubna, JINR
001451084 700__ $$aAsfandiyarov, R.$$uISDC, Versoix
001451084 700__ $$aBravar, A.$$uISDC, Versoix
001451084 700__ $$aBlondel, A.$$uISDC, Versoix
001451084 700__ $$aDominik, W.$$uWarsaw U.
001451084 700__ $$aFodor, Z.$$uBudapest, RMKI
001451084 700__ $$aGazdzicki, M.$$vU. Frankfurt and Kielce
001451084 700__ $$aGolubeva, M.$$uMoscow, INR
001451084 700__ $$aGuber, F.$$uMoscow, INR
001451084 700__ $$aHasler, A.$$uISDC, Versoix
001451084 700__ $$aKorzenev, A.$$uISDC, Versoix
001451084 700__ $$aKuleshov, S.$$uSanta Maria U., Valparaiso
001451084 700__ $$aKurepin, A.$$uMoscow, INR
001451084 700__ $$aLaszlo, A.$$uBudapest, RMKI
001451084 700__ $$aMarin, V.$$uMoscow, INR
001451084 700__ $$aMusienko, Yu.$$uMoscow, INR
001451084 700__ $$aPetukhov, O.$$uMoscow, INR
001451084 700__ $$aRöhrich, D.$$uBergen U.
001451084 700__ $$aSadovsky, A.$$uMoscow, INR
001451084 700__ $$aSadygov, Z.$$uDubna, JINR
001451084 700__ $$aTolyhi, T.$$uBudapest, RMKI
001451084 700__ $$aZerrouk, F.$$vZecotek Imaging Systems Pte. Ltd Singapore
001451084 8564_ $$uhttp://arxiv.org/pdf/1205.4864.pdf$$yPreprint
001451084 8564_ $$81428411$$s879166$$uhttps://cds.cern.ch/record/1451084/files/arXiv:1205.4864.pdf
001451084 916__ $$sn$$w201221
001451084 960__ $$a11
001451084 980__ $$aPREPRINT