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Commissioning and operation of the readout system for the SoLid neutrino detector

Y. Abreu, Y. Amhis, G. Ban, W. Beaumont, S. Binet, M. Bongrand, D. Boursette, B. C. Castle, H. Chanal, K. Clark, et al.
(2019) JOURNAL OF INSTRUMENTATION. 14.
Author
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Abstract
The SoLid experiment aims to measure neutrino oscillation at a baseline of 6.4 m from the BR2 nuclear reactor in Belgium. Anti-neutrinos interact via inverse beta decay (IBD), resulting in a positron and neutron signal that are correlated in time and space. The detector operates in a surface building, with modest shielding, and relies on extremely efficient online rejection of backgrounds in order to identify these interactions. A novel detector design has been developed using 12800 5 cm cubes for high segmentation. Each cube is formed of a sandwich of two scintillators, PVT and (LiF)-Li-6:ZnS(Ag), allowing the detection and identification of positrons and neutrons respectively. The active volume of the detector is an array of cubes measuring 80 x 80 x 250 cm (corresponding to a fiducial mass of 1.6 T), which is read out in layers using two dimensional arrays of wavelength shifting fibres and silicon photomultipliers, for a total of 3200 readout channels. Signals are recorded with 14 bit resolution, and at 40 MHz sampling frequency, for a total raw data rate of over 2 Tbit/s. In this paper, we describe a novel readout and trigger system built for the experiment, that satisfies requirements on: compactness, low power, high performance, and very low cost per channel. The system uses a combination of high price-performance FPGAs with a gigabit Ethernet based readout system, and its total power consumption is under 1 kW. The use of zero suppression techniques, combined with pulse shape discrimination trigger algorithms to detect neutrons, results in an online data reduction factor of around 10000. The neutron trigger is combined with a large per-channel history time buffer, allowing for unbiased positron detection. The system was commissioned in late 2017, with successful physics data taking established in early 2018.
Keywords
Data acquisition circuits, Trigger algorithms, Front-end electronics for, detector readout, Control and monitor systems online

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MLA
Abreu, Y., et al. “Commissioning and Operation of the Readout System for the SoLid Neutrino Detector.” JOURNAL OF INSTRUMENTATION, vol. 14, 2019, doi:10.1088/1748-0221/14/11/P11003.
APA
Abreu, Y., Amhis, Y., Ban, G., Beaumont, W., Binet, S., Bongrand, M., … Yermia, F. (2019). Commissioning and operation of the readout system for the SoLid neutrino detector. JOURNAL OF INSTRUMENTATION, 14. https://doi.org/10.1088/1748-0221/14/11/P11003
Chicago author-date
Abreu, Y., Y. Amhis, G. Ban, W. Beaumont, S. Binet, M. Bongrand, D. Boursette, et al. 2019. “Commissioning and Operation of the Readout System for the SoLid Neutrino Detector.” JOURNAL OF INSTRUMENTATION 14. https://doi.org/10.1088/1748-0221/14/11/P11003.
Chicago author-date (all authors)
Abreu, Y., Y. Amhis, G. Ban, W. Beaumont, S. Binet, M. Bongrand, D. Boursette, B. C. Castle, H. Chanal, K. Clark, B. Coupe, P. Crochet, D. Cussans, A. De Roeck, D. Durand, M. Fallot, L. Ghys, L. Giot, K. Graves, B. Guillon, D. Henaff, B. Hosseini, S. Ihantola, S. Jenzer, S. Kalcheva, L. N. Kalousis, Mathieu Labare, G. Lehaut, S. Manley, L. Manzanillas, J. Mermans, Ianthe Michiels, S. Monteil, Céline Moortgat, D. Newbold, J. Park, V Pestel, K. Petridis, I Pinera, L. Popescu, Dirk Ryckbosch, N. Ryder, D. Saunders, M-H Schune, M. Settimo, L. Simard, A. Vacheret, Giel Vandierendonck, S. Van Dyck, P. Van Mulders, N. van Remortel, S. Vercaemer, M. Verstraeten, B. Viaud, A. Weber, and F. Yermia. 2019. “Commissioning and Operation of the Readout System for the SoLid Neutrino Detector.” JOURNAL OF INSTRUMENTATION 14. doi:10.1088/1748-0221/14/11/P11003.
Vancouver
1.
Abreu Y, Amhis Y, Ban G, Beaumont W, Binet S, Bongrand M, et al. Commissioning and operation of the readout system for the SoLid neutrino detector. JOURNAL OF INSTRUMENTATION. 2019;14.
IEEE
[1]
Y. Abreu et al., “Commissioning and operation of the readout system for the SoLid neutrino detector,” JOURNAL OF INSTRUMENTATION, vol. 14, 2019.
@article{8667567,
  abstract     = {{The SoLid experiment aims to measure neutrino oscillation at a baseline of 6.4 m from the BR2 nuclear reactor in Belgium. Anti-neutrinos interact via inverse beta decay (IBD), resulting in a positron and neutron signal that are correlated in time and space. The detector operates in a surface building, with modest shielding, and relies on extremely efficient online rejection of backgrounds in order to identify these interactions. A novel detector design has been developed using 12800 5 cm cubes for high segmentation. Each cube is formed of a sandwich of two scintillators, PVT and (LiF)-Li-6:ZnS(Ag), allowing the detection and identification of positrons and neutrons respectively. The active volume of the detector is an array of cubes measuring 80 x 80 x 250 cm (corresponding to a fiducial mass of 1.6 T), which is read out in layers using two dimensional arrays of wavelength shifting fibres and silicon photomultipliers, for a total of 3200 readout channels. Signals are recorded with 14 bit resolution, and at 40 MHz sampling frequency, for a total raw data rate of over 2 Tbit/s. In this paper, we describe a novel readout and trigger system built for the experiment, that satisfies requirements on: compactness, low power, high performance, and very low cost per channel. The system uses a combination of high price-performance FPGAs with a gigabit Ethernet based readout system, and its total power consumption is under 1 kW. The use of zero suppression techniques, combined with pulse shape discrimination trigger algorithms to detect neutrons, results in an online data reduction factor of around 10000. The neutron trigger is combined with a large per-channel history time buffer, allowing for unbiased positron detection. The system was commissioned in late 2017, with successful physics data taking established in early 2018.}},
  articleno    = {{P11003}},
  author       = {{Abreu, Y. and Amhis, Y. and Ban, G. and Beaumont, W. and Binet, S. and Bongrand, M. and Boursette, D. and Castle, B. C. and Chanal, H. and Clark, K. and Coupe, B. and Crochet, P. and Cussans, D. and De Roeck, A. and Durand, D. and Fallot, M. and Ghys, L. and Giot, L. and Graves, K. and Guillon, B. and Henaff, D. and Hosseini, B. and Ihantola, S. and Jenzer, S. and Kalcheva, S. and Kalousis, L. N. and Labare, Mathieu and Lehaut, G. and Manley, S. and Manzanillas, L. and Mermans, J. and Michiels, Ianthe and Monteil, S. and Moortgat, Céline and Newbold, D. and Park, J. and Pestel, V and Petridis, K. and Pinera, I and Popescu, L. and Ryckbosch, Dirk and Ryder, N. and Saunders, D. and Schune, M-H and Settimo, M. and Simard, L. and Vacheret, A. and Vandierendonck, Giel and Van Dyck, S. and Van Mulders, P. and van Remortel, N. and Vercaemer, S. and Verstraeten, M. and Viaud, B. and Weber, A. and Yermia, F.}},
  issn         = {{1748-0221}},
  journal      = {{JOURNAL OF INSTRUMENTATION}},
  keywords     = {{Data acquisition circuits,Trigger algorithms,Front-end electronics for,detector readout,Control and monitor systems online}},
  language     = {{eng}},
  pages        = {{25}},
  title        = {{Commissioning and operation of the readout system for the SoLid neutrino detector}},
  url          = {{http://doi.org/10.1088/1748-0221/14/11/P11003}},
  volume       = {{14}},
  year         = {{2019}},
}
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