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Baby-MIND neutrino detector / Mefodiev, A V (Moscow, INR ; Moscow, MIPT) ; Kudenko, Yu G (Moscow, INR) ; Mineev, O V (Moscow, INR) ; Khotjantsev, A N (Moscow, INR)
The main objective of the Baby-MIND detector (Magnetized Iron Neutrino Detector) is the study of muon charge identification efficiency for muon momenta from 0.3 to 5 GeV/c. This paper presents the results of measurement of the Baby-MIND parameters..
2017 - 3 p. - Published in : Phys. Part. Nucl. 48 (2017) 1002-1004
- Published in : Fiz. Elem. Chastits At. Yadra: 48 (2017) , no. 6., pp. 984-987 Fulltext (Russian original): PDF;
In : International Session-Conference of the Section of Nuclear Physics of PSD RAS: Physics of Fundamental Interactions, Dubna, Russia, 12 - 15 Apr 2016, pp.1002-1004

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(91)

Synchronization of the distributed readout frontend electronics of the Baby MIND detector / Antonova, M (Moscow, INR) ; Asfandiyarov, R (Geneva U.) ; Bayes, R (Glasgow U.) ; Benoit, P (CERN) ; Blondel, A (Geneva U.) ; Bogomilov, M (Sofiya U.) ; Bross, A (Fermilab) ; Cadoux, F (Geneva U.) ; Cervera, A (Valencia U., IFIC) ; Chikuma, N (U. Tokyo (main)) et al.
Baby MIND is a new downstream muon range detector for the WGASCI experiment. This article discusses the distributed readout system and its timing requirements. [...]
10.1109/ET.2017.8124369.- 2017 - 4 p. - Published in : 10.1109/ET.2017.8124369
In : 2017 XXVI International Scientific Conference Electronics, Sozopol, Bulgaria, 13 - 15 Sep 2017, pp.8124369

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(88)

Readout scheme for the Baby-MIND detector / Noah, Etam (Geneva U.) ; Blondel, A (Geneva U.) ; Cadoux, F (Geneva U.) ; Favre, Y (Geneva U.) ; Martinez, B (Geneva U.) ; Nicola, L (Geneva U.) ; Parsa, S (Geneva U.) ; Rayner, M (Geneva U.) ; Antonova, M (Dubna, JINR) ; Fedotov, S (Dubna, JINR) et al.
A readout scheme has been designed for the plastic scintillator bars of the Baby-MIND detector modules. This spectrometer will measure momentum and identify the charge of 1 GeV/c muons with magnetized iron plates interleaved with detector modules. [...]
SISSA, 2016 - 12 p. - Published in : PoS PhotoDet2015 (2016) 031 Fulltext: PDF; External link: PoS server
In : 4th International Conference on New Photo-Detectors, Moscow, Russia, 6 - 9 Jul 2015, pp.031

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(86)

The Baby MIND muon spectrometer for the J-PARC T59 (WAGASCI) experiment / Antonova, M. (INR Moscow, Russia) ; Asfandiyarov, R (Geneva U.) ; Bayes, R. (Glasgow, U.) ; Benoit, P. (CERN) ; Blondel, A. (Geneva U.) ; Bogomilov, M. (Sofia U.) ; Bross, A. (Fermilab) ; Cadoux, F. (Geneva U.) ; Cervera, A. (IFIC Valencia U.) ; Chikuma, N. (Tokyo U.) et al.
The Baby MIND spectrometer is designed to measure the momentum and charge of muons from neutrino interactions in water and hydrocarbon targets at the J-PARC T59 (WAGASCI) experiment. The WAGASCI experiment will measure the ratio of neutrino charged current interaction cross-sections on water and hydrocarbon aiming at reducing systematic errors in neutrino oscillation analyses at T2K. [...]
AIDA-2020-CONF-2018-002.- Geneva : CERN, 2018 - Published in : PoS EPS-HEP2017 (2017) 508 Fulltext: PDF; External link: PoS server
In : 2017 European Physical Society Conference on High Energy Physics, Venice, Italy, 05 - 12 Jul 2017, pp.508

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(77)

Status report for the Neutrino Platform NP05 - Baby MIND - experiment / Noah, E (University of Geneva)
The Baby-MIND collaboration is actively working towards the completion of a muon spectrometer to be operated at J-PARC from autumn 2017. [...]
CERN-SPSC-2017-015 ; SPSC-SR-210. - 2017.
Fulltext

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(73)

Characterization of 3x3 mm$^{2}$ SensL SiPM's for NewCHOD detector of NA62 experiment at CERN / Kleimenova, Alina (Moscow, INR ; Moscow Phys. Eng. Inst.) ; Fedotov, S (Moscow Phys. Eng. Inst. ; Moscow, INR) ; Khotjantsev, A (Moscow, INR) ; Kleimenova, A (Moscow Phys. Eng. Inst. ; Moscow, INR) ; Kudenko, Yu (Moscow, MIPT ; Moscow Phys. Eng. Inst. ; Moscow, INR) ; Mefodiev, A (Moscow, MIPT ; Moscow, INR) ; Mineev, O (Moscow, INR) ; Yershov, N (Moscow, INR)
The article presents the results of SensL SiPM characterization for the New CHOD detector in NA62 experiment at CERN. For each of 500 photosensors we have measured noise, gain and relative photon detection efficiency..
SISSA, 2016 - 5 p. - Published in : PoS PhotoDet2015 (2016) 068 Fulltext: PDF; External link: PoS server
In : 4th International Conference on New Photo-Detectors, Moscow, Russia, 6 - 9 Jul 2015, pp.068

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(70)

Status report for the Neutrino Platform NP05 (Baby MIND) experiment / Noah, E (University of Geneva)
Report outlining progress by the Baby MIND collaboration since the October 2015 SPSC committee meeting. [...]
CERN-SPSC-2016-020 ; SPSC-SR-187. - 2016.
Fulltext - Original Document (SPSC-P-353)

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(69)

Measurement of parameters of scintillating bars with wavelength-shifting fibres and silicon photomultiplier readout for the SHiP Muon Detector / Baldini, W. (INFN, Ferrara) ; Blondel, A. (Geneva U.) ; Calcaterra, A. (Frascati) ; Jacobsson, R. (CERN) ; Khotjantsev, A. (Moscow, INR) ; Kudenko, Y. (Moscow, INR ; Moscow Phys. Eng. Inst.) ; Kurochka, V. (Moscow, INR) ; Lanfranchi, G. (Frascati) ; Mefodiev, A. (Moscow, INR) ; Mineev, O. (Moscow, INR) et al.
The light yield and the time resolution of different types of 3 m long scintillating bars instrumented with wavelength shifting fibres and read out by different models of silicon photomultipliers have been measured at a test beam at the T9 area at the CERN Proton Synchrotron. The results obtained with different configurations are presented. [...]
arXiv:1612.01125.- 2017-03-07 - 20 p. - Published in : JINST 12 (2017) P03005 Fulltext: 10.1088_1748-0221_12_03_P03005 - PDF; arXiv:1612.01125_3 - PDF; arXiv:1612.01125_2 - PDF; arXiv:1612.01125 - PDF; IOP Open Access article: PDF; External links: 00009 Light yield scan across 3 cm, 5 cm and 10 cm bars (a). Attenuation of scintillating light in the opposite directions from a fibre in the 10 cm bar (b).; 00006 Sum of the light yield measured at each as a function of the beam position along the bar for L2, L1, L4 bar.; 00004 L2 bar: light yield measured at each end (red squares and blue solid circles) and the sum of the light yields measured at both ends (black open circles) as a function of the incident beam position along the bar.; 00003 L1 bar: light yield measured at each end (red squares and blue solid circles) and the sum of the light yields at both ends (black open circles) as a function of the incident beam position along the bar.; 00007 Light yield scan for 3 cm bars U1 (a) and 5 cm bars U2 (b).; 00002 Example of distribution of the sum of the light yield collected at both ends of a 2 cm thick NICADD bar.; 00014 L2 bar time resolution using only SiPM $L$($R$), red circles(blue squares) and both SiPMs (green triangles).; 00013 L1 bar time resolution using only SiPM $L$($R$), red circles(blue squares) and both SiPMs (green triangles).; 00015 L4 bar time resolution using only SiPM $L$($R$), red circles(blue squares) and both SiPMs (green triangles).; 00001 Example of MPPC spectrum used for the calibration of the light yield.; 00008 Light yield scan for 10 cm bars U3 (a) and U4 (b).; 00000 Four types of bars manufactured at UNIPLAST factory.; 00018 Time resolution for 10 cm bars with 2 MPPC readout (a) and 4 MPPC readout (b).; 00017 Time resolution for 3 cm (a) and 5 cm bars (b) vs position along the bars.; 00011 Example of baseline-subtracted waveform for 2 cm thick NICADD bars.; 00010 The inefficiency for 3 and 5 cm wide bars as a function of the charge detection threshold. The events are counted if the charge is over the specified threshold at each bar end.; 00005 L4 bar: light yield measured at each end (red squares and blue solid circles) and the sum of the light yields measured at both ends (black open circles) as a function of the beam position along the bar.; 00016 Fitting of digitized pulse shape to obtain the timing mark.; 00012 Speed of light propagation $v_f$ in L2 fibre, for signals read by SiPM left (red line) and right (blue line); $v_f$ is measured as $(16.0\pm0.1)$ cm/ns.

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(68)

Baby MIND Readout Electronics Architecture for Accelerator Neutrino Particle Physics Detectors Employing Silicon Photomultipliers / Basille, O (Geneva U.) ; Blondel, A (Geneva U.) ; Benoit, P (CERN) ; Bogomilov, M (Sofiya U.) ; Bron, S (Geneva U.) ; Cadoux, F (Geneva U.) ; Chikuma, N (Tokyo U.) ; Douqa, D (Geneva U.) ; Dudarev, A (CERN) ; Ekelöf, T (Uppsala U.) et al.
The 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. [...]
JPS, 2019 - 7 p. - Published in : JPS Conf. Proc. 27 (2019) 011011 Fulltext: PDF;
In : PD18 5th International Workshop on New Photon-Detectors, Tokyo, Japan, 27 - 29 Nov 2018, pp.011011

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The beam test of muon detector parameters for the SHiP experiment at CERN / Likhacheva, V L (Moscow, INR ; Moscow Phys. Eng. Inst.) ; Kudenko, Yu G (Moscow, INR ; Moscow Phys. Eng. Inst. ; Moscow, MIPT) ; Mefodiev, A V (Moscow, INR ; Moscow, MIPT) ; Mineev, O V (Moscow, INR) ; Khotyantsev, A N (Moscow, INR)
Scintillation detectors based on extruded plastics have been tested in a 10 GeV/c beam at CERN. The scintillation signal readout was provided using optical wavelength shifting fibers Y11 Kuraray and Hamamatsu MPPC micropixel avalanche photodiodes. [...]
2018 - 3 p. - Published in : Phys. Part. Nucl. 49 (2018) 67-69
- Published in : Fiz. Elem. Chastits At. Yadra: 49 (2018) , no. 1
In : International Session-Conference of the Section of Nuclear Physics of PSD RAS: Physics of Fundamental Interactions, Dubna, Russia, 12 - 15 Apr 2016, pp.67-69

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