The Electromagnetic Calorimeter for the T2K Near Detector ND280

D.Allan (5); C.Andreopoulos (5); C.Angelsen (5); G.J.Barker (9),; G.Barr (7); S.Bentham (3); I.Bertram (3); S.Boyd (9); K.Briggs (9),; R.G.Calland (6); J.Carroll (6); S.L.Cartwright (8); A.Carver (9); C.Chavez; (6); G.Christodoulou (6); J.Coleman (6); P.Cooke (6); G.Davies (3); C.Densham; (5); F.Di Lodovico (4); J.Dobson (2); T.Duboyski (4); T.Durkin (5); D.L.Evans; (6); A.Finch (3); M.Fitton (5); F.C.Gannaway (4); A.Grant (1); N.Grant (3),; S.Grenwood (2); P.Guzowski (2); D.Hadley (9); M.Haigh (7); P.F.Harrison (9),; A.Hatzikoutelis (3); T.D.J.Haycock (8); A.Hyndman (4); J.Ilic (5); S.Ives; (2); A.C.Kaboth (2); V.Kasey (2); L.Kellet (6); M.Khaleeq (2); G.Kogan (2),; L.L.Kormos (3); M.Lawe (8); T.B.Lawson (8); C.Lister (9); R.P.Litchfield (9),; M.Lockwood (6); M.Malek (2); T.Maryon (3); P.Masliah (2); K.Mavrokoridis (6),; N.McCauley (6); I.Mercer (3); C.Metelko (5); B.Morgan (9); J.Morris (4),; A.Muir (1); M.Murdoch (6); T.Nicholls (5); M.Noy (2); H.M.O'Keeffe (7),; R.A.Owen (4); D.Payne (6); G.F.Pearce (5); J.D.Perkin (8); E.Poplawska (4),; R.Preece (5); W.Qian (5); P.Ratoff (3); T.Raufer (5); M.Raymond (2); M.Reeves; (3); D.Richards (9); M.Rooney (5); R.Sacco (4); S.Sadler (8); P.Schaack (2),; M.Scott (2); D.I.Scully (9); S.Short (2); M.Siyad (5); R.Smith (7); B.Still; (4); P.Sutcliffe (6); I.J.Taylor (9); R.Terri (4); L.F.Thompson (8),; A.Thorley (6); M.Thorpe (5); C.Timis (4); C.Touramanis (6); M.A.Uchida (4),; Y.Uchida (2); A.Vacheret (7); J.F.VanSchalkwyk (2); O.Veledar (8),; A.V.Waldron (7); M.A.Ward (8); G.P.Ward (8); D.Wark (5; 7); M.O.Wascko; (2); A.Weber (5; 7); N.West (7); L.H.Whitehead (9); C.Wilkinson (8),; J.R.Wilson (4) ((1) STFC; Daresbury Laboratory; Daresbury; UK; (2) Imperial; College London; London; UK; (3) Lancaster University; Lancaster; UK; (4); Queen Mary; University of London; London; UK; (5) STFC; Rutherford Appleton; Laboratory; Oxford; UK; (6) University of Liverpool; Liverpool; UK; (7); University of Oxford; Oxford; UK; (8) University of Sheffield; Sheffield; UK,; (9) University of Warwick; Coventry; UK)

arXiv:1308.3445·physics.ins-det·November 6, 2013

The Electromagnetic Calorimeter for the T2K Near Detector ND280

D.Allan (5), C.Andreopoulos (5), C.Angelsen (5), G.J.Barker (9),, G.Barr (7), S.Bentham (3), I.Bertram (3), S.Boyd (9), K.Briggs (9),, R.G.Calland (6), J.Carroll (6), S.L.Cartwright (8), A.Carver (9), C.Chavez, (6), G.Christodoulou (6), J.Coleman (6), P.Cooke (6), G.Davies (3)

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TL;DR

The paper details the design, construction, and performance evaluation of the electromagnetic calorimeter (ECal) used in the ND280 near detector of the T2K neutrino experiment, crucial for particle identification and interaction measurements.

Contribution

It presents the comprehensive design, construction, and testing procedures of the ECal, including materials, electronics, and performance results from various calibration methods.

Findings

01

ECal effectively reconstructs neutral particles.

02

ECal achieves high detection efficiency for charged particles.

03

Performance validated with particle beams and cosmic rays.

Abstract

The T2K experiment studies oscillations of an off-axis muon neutrino beam between the J-PARC accelerator complex and the Super-Kamiokande detector. Special emphasis is placed on measuring the mixing angle theta_13 by observing electron neutrino appearance via the sub-dominant muon neutrino to electron neutrino oscillation, and searching for CP violation in the lepton sector. The experiment includes a sophisticated, off-axis, near detector, the ND280, situated 280 m downstream of the neutrino production target in order to measure the properties of the neutrino beam and to understand better neutrino interactions at the energy scale below a few GeV. The data collected with the ND280 are used to study charged- and neutral-current neutrino interaction rates and kinematics prior to oscillation, in order to reduce uncertainties in the oscillation measurements by the far detector. A key element…

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