Photon detector system timing performance in the DUNE 35-ton prototype liquid argon time projection chamber

D.L. Adams, T. Alion, J.T. Anderson, L. Bagby, M. Baird, G. Barr, N. Barros, K. Biery, A. Blake, E. Blaufuss, T. Boone, A. Booth, D. Brailsford, N. Buchanan, A. Chatterjee, M. Convery, J. Davies, T. Dealtry, P. De; Lurgio, G. Deuerling, R. Dharmapalan, Z. Djurcic, G. Drake, B. Eberly, J. Freeman, S. Glavin, R.A. Gomes, M.C. Goodman, M. Graham, A. Hahn, J.T. Haigh, J. Hartnell, A. Higuera, A. Himmel, J. Insler, J. Jacobsen, T. Junk, B. Kirby, J. Klein, V.A. Kudryavtsev, T. Kutter, Y. Li, X. Li, S. Lin, J. Martin-Albo, N. McConkey, C.A. Moura, S. Mufson, T.C. Nicholls, J. Nowak, M. Oberling, J. Paley, X. Qian, J.L. Raaf, D. Rivera, G. Santucci, G. Sinev, N.J.C. Spooner, M. Stancari, I. Stancu, D. Stefan, J. Stewart, J. Stock, T. Strauss, R. Sulej, Y. Sun, M. Thiesse, L.F. Thompson, Y.T. Tsai, M. Wallbank, T.K. Warburton, D. Warner, D. Whittington, R.J. Wilson, M. Worcester, E. Worcester, T. Yang and C. Zhang
Institute of Physics Publishing (IOP)
Published 2018

Publication Date:	2018-06-28
Publisher:	Institute of Physics Publishing (IOP)
Electronic ISSN:	1748-0221
Topics:	Physics
Published by:	http://www.iop.org/

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_version_	1836398988745506816
autor	D.L. Adams, T. Alion, J.T. Anderson, L. Bagby, M. Baird, G. Barr, N. Barros, K. Biery, A. Blake, E. Blaufuss, T. Boone, A. Booth, D. Brailsford, N. Buchanan, A. Chatterjee, M. Convery, J. Davies, T. Dealtry, P. De; Lurgio, G. Deuerling, R. Dharmapalan, Z. Djurcic, G. Drake, B. Eberly, J. Freeman, S. Glavin, R.A. Gomes, M.C. Goodman, M. Graham, A. Hahn, J.T. Haigh, J. Hartnell, A. Higuera, A. Himmel, J. Insler, J. Jacobsen, T. Junk, B. Kirby, J. Klein, V.A. Kudryavtsev, T. Kutter, Y. Li, X. Li, S. Lin, J. Martin-Albo, N. McConkey, C.A. Moura, S. Mufson, T.C. Nicholls, J. Nowak, M. Oberling, J. Paley, X. Qian, J.L. Raaf, D. Rivera, G. Santucci, G. Sinev, N.J.C. Spooner, M. Stancari, I. Stancu, D. Stefan, J. Stewart, J. Stock, T. Strauss, R. Sulej, Y. Sun, M. Thiesse, L.F. Thompson, Y.T. Tsai, M. Wallbank, T.K. Warburton, D. Warner, D. Whittington, R.J. Wilson, M. Worcester, E. Worcester, T. Yang and C. Zhang
beschreibung	The 35-ton prototype for the Deep Underground Neutrino Experiment far detector was a single-phase liquid argon time projection chamber with an integrated photon detector system, all situated inside a membrane cryostat. The detector took cosmic-ray data for six weeks during the period of February 1, 2016 to March 12, 2016. The performance of the photon detection system was checked with these data. An installed photon detector was demonstrated to measure the arrival times of cosmic-ray muons with a resolution better than 32 ns, limited by the timing of the trigger system. A measurement of the timing resolution using closely-spaced calibration pulses yielded a resolution of 15 ns for pulses at a level of 6 photo-electrons. Scintillation light from cosmic-ray muons was observed to be attenuated with increasing distance with a characteristic length of 155 ± 28 cm.
citation_standardnr	6293804
datenlieferant	ipn_articles
feed_id	66992
feed_publisher	Institute of Physics Publishing (IOP)
feed_publisher_url	http://www.iop.org/
insertion_date	2018-06-28
journaleissn	1748-0221
publikationsjahr_anzeige	2018
publikationsjahr_facette	2018
publikationsjahr_intervall	7984:2015-2019
publikationsjahr_sort	2018
publisher	Institute of Physics Publishing (IOP)
quelle	Journal of Instrumentation
relation	http://iopscience.iop.org/1748-0221/13/06/P06022
search_space	articles
shingle_author_1	D.L. Adams, T. Alion, J.T. Anderson, L. Bagby, M. Baird, G. Barr, N. Barros, K. Biery, A. Blake, E. Blaufuss, T. Boone, A. Booth, D. Brailsford, N. Buchanan, A. Chatterjee, M. Convery, J. Davies, T. Dealtry, P. De; Lurgio, G. Deuerling, R. Dharmapalan, Z. Djurcic, G. Drake, B. Eberly, J. Freeman, S. Glavin, R.A. Gomes, M.C. Goodman, M. Graham, A. Hahn, J.T. Haigh, J. Hartnell, A. Higuera, A. Himmel, J. Insler, J. Jacobsen, T. Junk, B. Kirby, J. Klein, V.A. Kudryavtsev, T. Kutter, Y. Li, X. Li, S. Lin, J. Martin-Albo, N. McConkey, C.A. Moura, S. Mufson, T.C. Nicholls, J. Nowak, M. Oberling, J. Paley, X. Qian, J.L. Raaf, D. Rivera, G. Santucci, G. Sinev, N.J.C. Spooner, M. Stancari, I. Stancu, D. Stefan, J. Stewart, J. Stock, T. Strauss, R. Sulej, Y. Sun, M. Thiesse, L.F. Thompson, Y.T. Tsai, M. Wallbank, T.K. Warburton, D. Warner, D. Whittington, R.J. Wilson, M. Worcester, E. Worcester, T. Yang and C. Zhang
shingle_author_2	D.L. Adams, T. Alion, J.T. Anderson, L. Bagby, M. Baird, G. Barr, N. Barros, K. Biery, A. Blake, E. Blaufuss, T. Boone, A. Booth, D. Brailsford, N. Buchanan, A. Chatterjee, M. Convery, J. Davies, T. Dealtry, P. De; Lurgio, G. Deuerling, R. Dharmapalan, Z. Djurcic, G. Drake, B. Eberly, J. Freeman, S. Glavin, R.A. Gomes, M.C. Goodman, M. Graham, A. Hahn, J.T. Haigh, J. Hartnell, A. Higuera, A. Himmel, J. Insler, J. Jacobsen, T. Junk, B. Kirby, J. Klein, V.A. Kudryavtsev, T. Kutter, Y. Li, X. Li, S. Lin, J. Martin-Albo, N. McConkey, C.A. Moura, S. Mufson, T.C. Nicholls, J. Nowak, M. Oberling, J. Paley, X. Qian, J.L. Raaf, D. Rivera, G. Santucci, G. Sinev, N.J.C. Spooner, M. Stancari, I. Stancu, D. Stefan, J. Stewart, J. Stock, T. Strauss, R. Sulej, Y. Sun, M. Thiesse, L.F. Thompson, Y.T. Tsai, M. Wallbank, T.K. Warburton, D. Warner, D. Whittington, R.J. Wilson, M. Worcester, E. Worcester, T. Yang and C. Zhang
shingle_author_3	D.L. Adams, T. Alion, J.T. Anderson, L. Bagby, M. Baird, G. Barr, N. Barros, K. Biery, A. Blake, E. Blaufuss, T. Boone, A. Booth, D. Brailsford, N. Buchanan, A. Chatterjee, M. Convery, J. Davies, T. Dealtry, P. De; Lurgio, G. Deuerling, R. Dharmapalan, Z. Djurcic, G. Drake, B. Eberly, J. Freeman, S. Glavin, R.A. Gomes, M.C. Goodman, M. Graham, A. Hahn, J.T. Haigh, J. Hartnell, A. Higuera, A. Himmel, J. Insler, J. Jacobsen, T. Junk, B. Kirby, J. Klein, V.A. Kudryavtsev, T. Kutter, Y. Li, X. Li, S. Lin, J. Martin-Albo, N. McConkey, C.A. Moura, S. Mufson, T.C. Nicholls, J. Nowak, M. Oberling, J. Paley, X. Qian, J.L. Raaf, D. Rivera, G. Santucci, G. Sinev, N.J.C. Spooner, M. Stancari, I. Stancu, D. Stefan, J. Stewart, J. Stock, T. Strauss, R. Sulej, Y. Sun, M. Thiesse, L.F. Thompson, Y.T. Tsai, M. Wallbank, T.K. Warburton, D. Warner, D. Whittington, R.J. Wilson, M. Worcester, E. Worcester, T. Yang and C. Zhang
shingle_author_4	D.L. Adams, T. Alion, J.T. Anderson, L. Bagby, M. Baird, G. Barr, N. Barros, K. Biery, A. Blake, E. Blaufuss, T. Boone, A. Booth, D. Brailsford, N. Buchanan, A. Chatterjee, M. Convery, J. Davies, T. Dealtry, P. De; Lurgio, G. Deuerling, R. Dharmapalan, Z. Djurcic, G. Drake, B. Eberly, J. Freeman, S. Glavin, R.A. Gomes, M.C. Goodman, M. Graham, A. Hahn, J.T. Haigh, J. Hartnell, A. Higuera, A. Himmel, J. Insler, J. Jacobsen, T. Junk, B. Kirby, J. Klein, V.A. Kudryavtsev, T. Kutter, Y. Li, X. Li, S. Lin, J. Martin-Albo, N. McConkey, C.A. Moura, S. Mufson, T.C. Nicholls, J. Nowak, M. Oberling, J. Paley, X. Qian, J.L. Raaf, D. Rivera, G. Santucci, G. Sinev, N.J.C. Spooner, M. Stancari, I. Stancu, D. Stefan, J. Stewart, J. Stock, T. Strauss, R. Sulej, Y. Sun, M. Thiesse, L.F. Thompson, Y.T. Tsai, M. Wallbank, T.K. Warburton, D. Warner, D. Whittington, R.J. Wilson, M. Worcester, E. Worcester, T. Yang and C. Zhang
shingle_catch_all_1	Photon detector system timing performance in the DUNE 35-ton prototype liquid argon time projection chamber The 35-ton prototype for the Deep Underground Neutrino Experiment far detector was a single-phase liquid argon time projection chamber with an integrated photon detector system, all situated inside a membrane cryostat. The detector took cosmic-ray data for six weeks during the period of February 1, 2016 to March 12, 2016. The performance of the photon detection system was checked with these data. An installed photon detector was demonstrated to measure the arrival times of cosmic-ray muons with a resolution better than 32 ns, limited by the timing of the trigger system. A measurement of the timing resolution using closely-spaced calibration pulses yielded a resolution of 15 ns for pulses at a level of 6 photo-electrons. Scintillation light from cosmic-ray muons was observed to be attenuated with increasing distance with a characteristic length of 155 ± 28 cm. D.L. Adams, T. Alion, J.T. Anderson, L. Bagby, M. Baird, G. Barr, N. Barros, K. Biery, A. Blake, E. Blaufuss, T. Boone, A. Booth, D. Brailsford, N. Buchanan, A. Chatterjee, M. Convery, J. Davies, T. Dealtry, P. De; Lurgio, G. Deuerling, R. Dharmapalan, Z. Djurcic, G. Drake, B. Eberly, J. Freeman, S. Glavin, R.A. Gomes, M.C. Goodman, M. Graham, A. Hahn, J.T. Haigh, J. Hartnell, A. Higuera, A. Himmel, J. Insler, J. Jacobsen, T. Junk, B. Kirby, J. Klein, V.A. Kudryavtsev, T. Kutter, Y. Li, X. Li, S. Lin, J. Martin-Albo, N. McConkey, C.A. Moura, S. Mufson, T.C. Nicholls, J. Nowak, M. Oberling, J. Paley, X. Qian, J.L. Raaf, D. Rivera, G. Santucci, G. Sinev, N.J.C. Spooner, M. Stancari, I. Stancu, D. Stefan, J. Stewart, J. Stock, T. Strauss, R. Sulej, Y. Sun, M. Thiesse, L.F. Thompson, Y.T. Tsai, M. Wallbank, T.K. Warburton, D. Warner, D. Whittington, R.J. Wilson, M. Worcester, E. Worcester, T. Yang and C. Zhang Institute of Physics Publishing (IOP) 1748-0221 17480221
shingle_catch_all_2	Photon detector system timing performance in the DUNE 35-ton prototype liquid argon time projection chamber The 35-ton prototype for the Deep Underground Neutrino Experiment far detector was a single-phase liquid argon time projection chamber with an integrated photon detector system, all situated inside a membrane cryostat. The detector took cosmic-ray data for six weeks during the period of February 1, 2016 to March 12, 2016. The performance of the photon detection system was checked with these data. An installed photon detector was demonstrated to measure the arrival times of cosmic-ray muons with a resolution better than 32 ns, limited by the timing of the trigger system. A measurement of the timing resolution using closely-spaced calibration pulses yielded a resolution of 15 ns for pulses at a level of 6 photo-electrons. Scintillation light from cosmic-ray muons was observed to be attenuated with increasing distance with a characteristic length of 155 ± 28 cm. D.L. Adams, T. Alion, J.T. Anderson, L. Bagby, M. Baird, G. Barr, N. Barros, K. Biery, A. Blake, E. Blaufuss, T. Boone, A. Booth, D. Brailsford, N. Buchanan, A. Chatterjee, M. Convery, J. Davies, T. Dealtry, P. De; Lurgio, G. Deuerling, R. Dharmapalan, Z. Djurcic, G. Drake, B. Eberly, J. Freeman, S. Glavin, R.A. Gomes, M.C. Goodman, M. Graham, A. Hahn, J.T. Haigh, J. Hartnell, A. Higuera, A. Himmel, J. Insler, J. Jacobsen, T. Junk, B. Kirby, J. Klein, V.A. Kudryavtsev, T. Kutter, Y. Li, X. Li, S. Lin, J. Martin-Albo, N. McConkey, C.A. Moura, S. Mufson, T.C. Nicholls, J. Nowak, M. Oberling, J. Paley, X. Qian, J.L. Raaf, D. Rivera, G. Santucci, G. Sinev, N.J.C. Spooner, M. Stancari, I. Stancu, D. Stefan, J. Stewart, J. Stock, T. Strauss, R. Sulej, Y. Sun, M. Thiesse, L.F. Thompson, Y.T. Tsai, M. Wallbank, T.K. Warburton, D. Warner, D. Whittington, R.J. Wilson, M. Worcester, E. Worcester, T. Yang and C. Zhang Institute of Physics Publishing (IOP) 1748-0221 17480221
shingle_catch_all_3	Photon detector system timing performance in the DUNE 35-ton prototype liquid argon time projection chamber The 35-ton prototype for the Deep Underground Neutrino Experiment far detector was a single-phase liquid argon time projection chamber with an integrated photon detector system, all situated inside a membrane cryostat. The detector took cosmic-ray data for six weeks during the period of February 1, 2016 to March 12, 2016. The performance of the photon detection system was checked with these data. An installed photon detector was demonstrated to measure the arrival times of cosmic-ray muons with a resolution better than 32 ns, limited by the timing of the trigger system. A measurement of the timing resolution using closely-spaced calibration pulses yielded a resolution of 15 ns for pulses at a level of 6 photo-electrons. Scintillation light from cosmic-ray muons was observed to be attenuated with increasing distance with a characteristic length of 155 ± 28 cm. D.L. Adams, T. Alion, J.T. Anderson, L. Bagby, M. Baird, G. Barr, N. Barros, K. Biery, A. Blake, E. Blaufuss, T. Boone, A. Booth, D. Brailsford, N. Buchanan, A. Chatterjee, M. Convery, J. Davies, T. Dealtry, P. De; Lurgio, G. Deuerling, R. Dharmapalan, Z. Djurcic, G. Drake, B. Eberly, J. Freeman, S. Glavin, R.A. Gomes, M.C. Goodman, M. Graham, A. Hahn, J.T. Haigh, J. Hartnell, A. Higuera, A. Himmel, J. Insler, J. Jacobsen, T. Junk, B. Kirby, J. Klein, V.A. Kudryavtsev, T. Kutter, Y. Li, X. Li, S. Lin, J. Martin-Albo, N. McConkey, C.A. Moura, S. Mufson, T.C. Nicholls, J. Nowak, M. Oberling, J. Paley, X. Qian, J.L. Raaf, D. Rivera, G. Santucci, G. Sinev, N.J.C. Spooner, M. Stancari, I. Stancu, D. Stefan, J. Stewart, J. Stock, T. Strauss, R. Sulej, Y. Sun, M. Thiesse, L.F. Thompson, Y.T. Tsai, M. Wallbank, T.K. Warburton, D. Warner, D. Whittington, R.J. Wilson, M. Worcester, E. Worcester, T. Yang and C. Zhang Institute of Physics Publishing (IOP) 1748-0221 17480221
shingle_catch_all_4	Photon detector system timing performance in the DUNE 35-ton prototype liquid argon time projection chamber The 35-ton prototype for the Deep Underground Neutrino Experiment far detector was a single-phase liquid argon time projection chamber with an integrated photon detector system, all situated inside a membrane cryostat. The detector took cosmic-ray data for six weeks during the period of February 1, 2016 to March 12, 2016. The performance of the photon detection system was checked with these data. An installed photon detector was demonstrated to measure the arrival times of cosmic-ray muons with a resolution better than 32 ns, limited by the timing of the trigger system. A measurement of the timing resolution using closely-spaced calibration pulses yielded a resolution of 15 ns for pulses at a level of 6 photo-electrons. Scintillation light from cosmic-ray muons was observed to be attenuated with increasing distance with a characteristic length of 155 ± 28 cm. D.L. Adams, T. Alion, J.T. Anderson, L. Bagby, M. Baird, G. Barr, N. Barros, K. Biery, A. Blake, E. Blaufuss, T. Boone, A. Booth, D. Brailsford, N. Buchanan, A. Chatterjee, M. Convery, J. Davies, T. Dealtry, P. De; Lurgio, G. Deuerling, R. Dharmapalan, Z. Djurcic, G. Drake, B. Eberly, J. Freeman, S. Glavin, R.A. Gomes, M.C. Goodman, M. Graham, A. Hahn, J.T. Haigh, J. Hartnell, A. Higuera, A. Himmel, J. Insler, J. Jacobsen, T. Junk, B. Kirby, J. Klein, V.A. Kudryavtsev, T. Kutter, Y. Li, X. Li, S. Lin, J. Martin-Albo, N. McConkey, C.A. Moura, S. Mufson, T.C. Nicholls, J. Nowak, M. Oberling, J. Paley, X. Qian, J.L. Raaf, D. Rivera, G. Santucci, G. Sinev, N.J.C. Spooner, M. Stancari, I. Stancu, D. Stefan, J. Stewart, J. Stock, T. Strauss, R. Sulej, Y. Sun, M. Thiesse, L.F. Thompson, Y.T. Tsai, M. Wallbank, T.K. Warburton, D. Warner, D. Whittington, R.J. Wilson, M. Worcester, E. Worcester, T. Yang and C. Zhang Institute of Physics Publishing (IOP) 1748-0221 17480221
shingle_title_1	Photon detector system timing performance in the DUNE 35-ton prototype liquid argon time projection chamber
shingle_title_2	Photon detector system timing performance in the DUNE 35-ton prototype liquid argon time projection chamber
shingle_title_3	Photon detector system timing performance in the DUNE 35-ton prototype liquid argon time projection chamber
shingle_title_4	Photon detector system timing performance in the DUNE 35-ton prototype liquid argon time projection chamber
timestamp	2025-06-30T23:35:50.014Z
titel	Photon detector system timing performance in the DUNE 35-ton prototype liquid argon time projection chamber
titel_suche	Photon detector system timing performance in the DUNE 35-ton prototype liquid argon time projection chamber
topic	U
uid	ipn_articles_6293804