002727525 001__ 2727525
002727525 003__ SzGeCERN
002727525 005__ 20200809200858.0
002727525 0247_ $$2DOI$$9Physical Society of Japan$$a10.7566/JPSCP.27.011011
002727525 0248_ $$aoai:inspirehep.net:1769124$$pcerncds:CERN:FULLTEXT$$pcerncds:FULLTEXT$$pcerncds:CERN$$qINSPIRE:HEP$$qForCDS
002727525 035__ $$9http://old.inspirehep.net/oai2d$$aoai:inspirehep.net:1769124$$d2020-08-07T04:37:12Z$$h2020-08-08T04:00:04Z$$mmarcxml
002727525 035__ $$9Inspire$$a1769124
002727525 041__ $$aeng
002727525 100__ $$aBasille, O$$uGeneva U.
002727525 245__ $$9Physical Society of Japan$$aBaby MIND Readout Electronics Architecture for Accelerator Neutrino Particle Physics Detectors Employing Silicon Photomultipliers
002727525 260__ $$bJPS$$c2019
002727525 300__ $$a7 p
002727525 520__ $$9Physical Society of Japan$$aThe Baby MIND neutrino particle detector was installed at J-PARC in Tokai Japan in February 2018 and commissioned with first neutrino beam a few weeks later. It is instrumented with 3,996 Hamamatsu MPPCs type S12571-025C. A full readout electronics chain was developed to extract energy deposition and timing information of tracks left by charged particles from neutrino interactions in the Baby MIND and surrounding structures. Data from particle beam tests at CERN and commissioning at J-PARC are presented, to illustrate how the electronics readout architecture fulfills the physics requirements. A brief description of the adoption of this architecture for planned 60,000 MPPCs of a new 3D fine grained scintillator detector for operation at J-PARC from 2021 is given.
002727525 540__ $$3publication$$aCC-BY-4.0$$bPhysical Society of Japan$$uhttp://creativecommons.org/licenses/by/4.0/
002727525 542__ $$3publication$$dThe Authors$$g2019
002727525 65017 $$2SzGeCERN$$aDetectors and Experimental Techniques
002727525 6531_ $$9author$$aNeutrino oscillation
002727525 6531_ $$9author$$asilicon photomultiplier
002727525 6531_ $$9author$$aMPPC
002727525 6531_ $$9author$$areadout electronics
002727525 690C_ $$aCERN
002727525 693__ $$eBaby MIND
002727525 693__ $$eJ PARC TREK
002727525 700__ $$aBlondel, A$$uGeneva U.
002727525 700__ $$aBenoit, P$$uCERN
002727525 700__ $$aBogomilov, M$$uSofiya U.
002727525 700__ $$aBron, S$$uGeneva U.
002727525 700__ $$aCadoux, F$$uGeneva U.
002727525 700__ $$aChikuma, N$$uTokyo U.
002727525 700__ $$aDouqa, D$$uGeneva U.
002727525 700__ $$aDudarev, A$$uCERN
002727525 700__ $$aEkelöf, T$$uUppsala U.
002727525 700__ $$aFavre, Y$$uGeneva U.
002727525 700__ $$aFedotov, S$$uMoscow, INR
002727525 700__ $$aHallsjö, S P$$uGlasgow U.
002727525 700__ $$aIchikawa, A$$uKyoto U.
002727525 700__ $$aKhabibullin, M$$uMoscow, INR
002727525 700__ $$aKhotyantsev, A$$uMoscow, INR
002727525 700__ $$aKostin, A$$uMoscow, INR
002727525 700__ $$aKudenko, Y$$uMoscow, INR
002727525 700__ $$aMefodiev, A$$uMoscow, INR
002727525 700__ $$aMinamino, A$$uYokohama Natl. U.
002727525 700__ $$aMineev, O$$uMoscow, INR
002727525 700__ $$aMitev, G$$uSofiya, Inst. Nucl. Res.
002727525 700__ $$aNessi, M$$uCERN
002727525 700__ $$aNicola, L$$uGeneva U.
002727525 700__ $$aNoah, E$$uGeneva U.
002727525 700__ $$aParsa, S$$uGeneva U.
002727525 700__ $$aRayner, M$$uCERN
002727525 700__ $$aSanchez, F$$uGeneva U.
002727525 700__ $$aSimion, P$$uUppsala U.
002727525 700__ $$aSoler, F J P$$uGlasgow U.
002727525 700__ $$aSuvorov, S$$uMoscow, INR
002727525 700__ $$aKate, H Ten$$uCERN
002727525 700__ $$aTsenov, R$$uSofiya U.
002727525 700__ $$aVankova-Kirilova, G$$uSofiya U.
002727525 700__ $$aYasutome, K$$uKyoto U.
002727525 700__ $$aYershov, N$$uMoscow, INR
002727525 773__ $$01767339$$c011011$$pJPS Conf. Proc.$$v27$$wC18-11-27$$y2019
002727525 8564_ $$82242891$$s6211695$$uhttp://cds.cern.ch/record/2727525/files/10.7566_JPSCP.27.011011.pdf$$yFulltext
002727525 960__ $$a13
002727525 962__ $$b2650699$$k011011$$ntokyo20181127
002727525 980__ $$aARTICLE
002727525 980__ $$aConferencePaper