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Paper detail

Design, Calibration, and Performance of the MINERvA Detector

The MINERvA experiment is designed to perform precision studies of neutrino-nucleus scattering using $ν_μ$ and ${\barν}_μ$ neutrinos incident at 1-20 GeV in the NuMI beam at Fermilab. This article presents a detailed description of the \minerva detector and describes the {\em ex situ} and {\em in situ} techniques employed to characterize the detector and monitor its performance. The detector is comprised of a finely-segmented scintillator-based inner tracking region surrounded by electromagnetic and hadronic sampling calorimetry. The upstream portion of the detector includes planes of graphite, iron and lead interleaved between tracking planes to facilitate the study of nuclear effects in neutrino interactions. Observations concerning the detector response over sustained periods of running are reported. The detector design and methods of operation have relevance to future neutrino experiments in which segmented scintillator tracking is utilized.

preprint2013arXivOpen access
L. AliagaL. BagbyB. BaldinA. BaumbaughA. BodekR. BradfordW. K. BrooksD. BoehnleinS. BoydH. BuddA. ButkevichD. A. Martinez CaicedoC. M. CastromonteM. E. ChristyJ. ChvojkaH. da MottaD. S. DamianiI. DankoM. DattaR. DeMaatJ. DevanE. DraegerS. A. DytmanG. A. DiazB. EberlyD. A. EdmondsonJ. FelixL. FieldsG. A. FiorentiniA. M. GagoH. GallagherC. A. GeorgeC. GinguB. GobbiR. GranN. GrossmanD. A. HarrisJ. HeatonA. HigueraJ. A. HobbsI. J. HowleyK. HurtadoM. JerkinsT. KafkaM. O. KantnerC. KeppelJ. KilmerA. H. KrajeskiH. LeeA. G. LeisterG. LockeG. MaggiE. MaherS. ManlyW. A. MannC. M. MarshallK. S. McFarlandC. L. McGivernA. M. McGowanJ. G. MorfinJ. MousseauD. NaplesJ. K. NelsonG. NiculescuI. NiculescuC. D. O'ConnorN. OchoaJ. OlsenB. OsmanovJ. OstaJ. L. PalominoV. PaoloneJ. ParkG. N. PerdueC. PenaA. Pla-DalmauL. RakotondravohitraR. D. RansomeH. RayL. RenP. RubinovC. RudeK. E. SassinH. SchellmanD. W. SchmitzR. M. SchneiderC. SimonF. D. SniderM. C. SnyderC. J. Solano SalinasN. TaggB. G. TiceR. N. TildenG. TzanakosJ. P. VelasquezT. WaltonA. WesterbergJ. WolcottB. A. WolthuisN. WoodwardT. WytockG. ZavalaD. ZhangL. Y. ZhuB. P. Ziemer
hep-exphysics.ins-det
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L. AliagaL. BagbyB. BaldinA. BaumbaughA. BodekR. BradfordW. K. BrooksD. BoehnleinS. BoydH. BuddA. ButkevichD. A. Martinez CaicedoC. M. CastromonteM. E. ChristyJ. ChvojkaH. da MottaD. S. DamianiI. DankoM. DattaR. DeMaatJ. DevanE. DraegerS. A. DytmanG. A. DiazB. EberlyD. A. EdmondsonJ. FelixL. FieldsG. A. FiorentiniA. M. GagoH. GallagherC. A. GeorgeC. GinguB. GobbiR. GranN. GrossmanD. A. HarrisJ. HeatonA. HigueraJ. A. HobbsI. J. HowleyK. HurtadoM. JerkinsT. KafkaM. O. KantnerC. KeppelJ. KilmerA. H. KrajeskiH. LeeA. G. LeisterG. LockeG. MaggiE. MaherS. ManlyW. A. MannC. M. MarshallK. S. McFarlandC. L. McGivernA. M. McGowanJ. G. MorfinJ. MousseauD. NaplesJ. K. NelsonG. NiculescuI. NiculescuC. D. O'ConnorN. OchoaJ. OlsenB. OsmanovJ. OstaJ. L. PalominoV. PaoloneJ. ParkG. N. PerdueC. PenaA. Pla-DalmauL. RakotondravohitraR. D. RansomeH. RayL. RenP. RubinovC. RudeK. E. SassinH. SchellmanD. W. SchmitzR. M. SchneiderC. SimonF. D. SniderM. C. SnyderC. J. Solano SalinasN. TaggB. G. TiceR. N. TildenG. TzanakosJ. P. VelasquezT. WaltonA. WesterbergJ. WolcottB. A. WolthuisN. WoodwardT. WytockG. ZavalaD. ZhangL. Y. ZhuB. P. Ziemer

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