Giles Barr

Search for active neutrino disappearance using neutral-current interactions in the MINOS long-baseline experiment.

Phys Rev Lett 101:22 (2008) 221804

Authors:

P Adamson, C Andreopoulos, KE Arms, R Armstrong, DJ Auty, DS Ayres, C Backhouse, B Baller, G Barr, WL Barrett, BR Becker, A Belias, RH Bernstein, D Bhattacharya, M Bishai, A Blake, GJ Bock, J Boehm, DJ Boehnlein, D Bogert, C Bower, E Buckley-Geer, S Cavanaugh, JD Chapman, D Cherdack, S Childress, BC Choudhary, JH Cobb, SJ Coleman, AJ Culling, JK de Jong, M Dierckxsens, MV Diwan, M Dorman, SA Dytman, CO Escobar, JJ Evans, E Falk Harris, GJ Feldman, MV Frohne, HR Gallagher, A Godley, MC Goodman, P Gouffon, R Gran, EW Grashorn, N Grossman, K Grzelak, A Habig, D Harris, PG Harris, J Hartnell, R Hatcher, K Heller, A Himmel, A Holin, L Hsu, J Hylen, GM Irwin, M Ishitsuka, DE Jaffe, C James, D Jensen, T Kafka, SMS Kasahara, JJ Kim, MS Kim, G Koizumi, S Kopp, M Kordosky, DJ Koskinen, SK Kotelnikov, A Kreymer, S Kumaratunga, K Lang, J Ling, PJ Litchfield, RP Litchfield, L Loiacono, P Lucas, J Ma, WA Mann, A Marchionni, ML Marshak, JS Marshall, N Mayer, AM McGowan, JR Meier, MD Messier, CJ Metelko, DG Michael, WH Miller, SR Mishra, CD Moore, J Morfín, L Mualem, S Mufson, S Murgia, J Musser, D Naples, JK Nelson, HB Newman, RJ Nichol, TC Nicholls, JP Ochoa-Ricoux, WP Oliver, R Ospanov, J Paley, V Paolone, A Para, T Patzak, Z Pavlović, G Pawloski, GF Pearce, CW Peck, DA Petyt, R Pittam, RK Plunkett, A Rahaman, RA Rameika, TM Raufer, B Rebel, J Reichenbacher, PA Rodrigues, C Rosenfeld, HA Rubin, VA Ryabov, MC Sanchez, N Saoulidou, J Schneps, P Schreiner, P Shanahan, W Smart, C Smith, A Sousa, B Speakman, P Stamoulis, M Strait, N Tagg, RL Talaga, MA Tavera, J Thomas, MA Thomson, JL Thron, G Tinti, I Trostin, VA Tsarev, G Tzanakos, J Urheim, P Vahle, B Viren, DR Ward, M Watabe, A Weber, RC Webb, A Wehmann, N West, C White, SG Wojcicki, DM Wright, T Yang, K Zhang, R Zwaska, MINOS Collaboration

Abstract:

We report the first detailed comparisons of the rates and spectra of neutral-current neutrino interactions at two widely separated locations. A depletion in the rate at the far site would indicate mixing between nu(mu) and a sterile particle. No anomalous depletion in the reconstructed energy spectrum is observed. Assuming oscillations occur at a single mass-squared splitting, a fit to the neutral- and charged-current energy spectra limits the fraction of nu(mu) oscillating to a sterile neutrino to be below 0.68 at 90% confidence level. A less stringent limit due to a possible contribution to the measured neutral-current event rate at the far site from nu(e) appearance at the current experimental limit is also presented.

The magnetized steel and scintillator calorimeters of the MINOS experiment

Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 596:2 (2008) 190-228

Authors:

DG Michael, P Adamson, T Alexopoulos, WWM Allison, GJ Alner, K Anderson, C Andreopoulos, M Andrews, R Andrews, C Arroyo, S Avvakumov, DS Ayres, B Baller, B Barish, MA Barker, PD Barnes, G Barr, WL Barrett, E Beall, K Bechtol, BR Becker, A Belias, T Bergfeld, RH Bernstein, D Bhattacharya, M Bishai, A Blake, V Bocean, B Bock, GJ Bock, J Boehm, DJ Boehnlein, D Bogert, PM Border, C Bower, S Boyd, E Buckley-Geer, A Byon-Wagner, A Cabrera, JD Chapman, TR Chase, SK Chernichenko, S Childress, BC Choudhary, JH Cobb, SJ Coleman, JD Cossairt, H Courant, DA Crane, AJ Culling, D Damiani, JW Dawson, JK de Jong, DM DeMuth, A De Santo, M Dierckxsens, MV Diwan, M Dorman, G Drake, R Ducar, T Durkin, AR Erwin, CO Escobar, JJ Evans, OD Fackler, E Falk Harris, GJ Feldman, N Felt, TH Fields, R Ford, MV Frohne, HR Gallagher, M Gebhard, A Godley, J Gogos, MC Goodman, Y Gornushkin, P Gouffon, EW Grashorn, N Grossman, JJ Grudzinski, K Grzelak, V Guarino, A Habig, R Halsall, J Hanson, D Harris, PG Harris, J Hartnell, EP Hartouni, R Hatcher, K Heller, N Hill, Y Ho, C Howcroft, J Hylen, M Ignatenko, D Indurthy, GM Irwin, C James

Abstract:

The Main Injector Neutrino Oscillation Search (MINOS) experiment uses an accelerator-produced neutrino beam to perform precision measurements of the neutrino oscillation parameters in the "atmospheric neutrino" sector associated with muon neutrino disappearance. This long-baseline experiment measures neutrino interactions in Fermilab's NuMI neutrino beam with a near detector at Fermilab and again 735 km downstream with a far detector in the Soudan Underground Laboratory in northern Minnesota. The two detectors are magnetized steel-scintillator tracking calorimeters. They are designed to be as similar as possible in order to ensure that differences in detector response have minimal impact on the comparisons of event rates, energy spectra and topologies that are essential to MINOS measurements of oscillation parameters. The design, construction, calibration and performance of the far and near detectors are described in this paper. © 2008 Elsevier B.V.

Testing Lorentz invariance and CPT conservation with NuMI neutrinos in the MINOS near detector.

Phys Rev Lett 101:15 (2008) 151601

Authors:

P Adamson, C Andreopoulos, KE Arms, R Armstrong, DJ Auty, DS Ayres, B Baller, G Barr, WL Barrett, BR Becker, A Belias, RH Bernstein, D Bhattacharya, M Bishai, A Blake, GJ Bock, J Boehm, DJ Boehnlein, D Bogert, C Bower, E Buckley-Geer, S Cavanaugh, JD Chapman, D Cherdack, S Childress, BC Choudhary, SJ Coleman, AJ Culling, JK de Jong, MV Diwan, M Dorman, SA Dytman, CO Escobar, JJ Evans, E Falk Harris, GJ Feldman, MV Frohne, HR Gallagher, MC Goodman, P Gouffon, R Gran, EW Grashorn, N Grossman, K Grzelak, A Habig, D Harris, PG Harris, J Hartnell, R Hatcher, K Heller, A Himmel, A Holin, J Hylen, GM Irwin, M Ishitsuka, DE Jaffe, C James, D Jensen, T Kafka, SMS Kasahara, JJ Kim, G Koizumi, S Kopp, M Kordosky, DJ Koskinen, A Kreymer, S Kumaratunga, K Lang, J Ling, PJ Litchfield, RP Litchfield, L Loiacono, P Lucas, J Ma, WA Mann, ML Marshak, JS Marshall, N Mayer, AM McGowan, JR Meier, MD Messier, CJ Metelko, DG Michael, JL Miller, WH Miller, SR Mishra, CD Moore, J Morfín, L Mualem, S Mufson, S Murgia, J Musser, D Naples, JK Nelson, HB Newman, RJ Nichol, TC Nicholls, JP Ochoa-Ricoux, WP Oliver, R Ospanov, J Paley, V Paolone, A Para, T Patzak, Z Pavlović, G Pawloski, GF Pearce, CW Peck, DA Petyt, R Pittam, RK Plunkett, A Rahaman, RA Rameika, TM Raufer, B Rebel, J Reichenbacher, PA Rodrigues, C Rosenfeld, HA Rubin, MC Sanchez, N Saoulidou, J Schneps, P Schreiner, P Shanahan, W Smart, A Sousa, B Speakman, P Stamoulis, M Strait, N Tagg, RL Talaga, MA Tavera, J Thomas, J Thompson, MA Thomson, JL Thron, G Tinti, G Tzanakos, J Urheim, P Vahle, B Viren, M Watabe, A Weber, RC Webb, A Wehmann, N West, C White, SG Wojcicki, T Yang, M Zois, K Zhang, R Zwaska, MINOS Collaboration

Abstract:

A search for a sidereal modulation in the MINOS near detector neutrino data was performed. If present, this signature could be a consequence of Lorentz and CPT violation as predicted by the effective field theory called the standard-model extension. No evidence for a sidereal signal in the data set was found, implying that there is no significant change in neutrino propagation that depends on the direction of the neutrino beam in a sun-centered inertial frame. Upper limits on the magnitudes of the Lorentz and CPT violating terms in the standard-model extension lie between 10(-4) and 10(-2) of the maximum expected, assuming a suppression of these signatures by a factor of 10(-17).

Measurement of neutrino oscillations with the MINOS detectors in the NuMI beam.

Phys Rev Lett 101:13 (2008) 131802

Authors:

P Adamson, C Andreopoulos, KE Arms, R Armstrong, DJ Auty, DS Ayres, B Baller, PD Barnes, G Barr, WL Barrett, BR Becker, A Belias, RH Bernstein, D Bhattacharya, M Bishai, A Blake, GJ Bock, J Boehm, DJ Boehnlein, D Bogert, C Bower, E Buckley-Geer, S Cavanaugh, JD Chapman, D Cherdack, S Childress, BC Choudhary, JH Cobb, SJ Coleman, AJ Culling, JK de Jong, M Dierckxsens, MV Diwan, M Dorman, SA Dytman, CO Escobar, JJ Evans, E Falk Harris, GJ Feldman, MV Frohne, HR Gallagher, A Godley, MC Goodman, P Gouffon, R Gran, EW Grashorn, N Grossman, K Grzelak, A Habig, D Harris, PG Harris, J Hartnell, R Hatcher, K Heller, A Himmel, A Holin, J Hylen, GM Irwin, M Ishitsuka, DE Jaffe, C James, D Jensen, T Kafka, SMS Kasahara, JJ Kim, MS Kim, G Koizumi, S Kopp, M Kordosky, DJ Koskinen, SK Kotelnikov, A Kreymer, S Kumaratunga, K Lang, J Ling, PJ Litchfield, RP Litchfield, L Loiacono, P Lucas, J Ma, WA Mann, A Marchionni, ML Marshak, JS Marshall, N Mayer, AM McGowan, JR Meier, GI Merzon, MD Messier, CJ Metelko, DG Michael, JL Miller, WH Miller, SR Mishra, CD Moore, J Morfín, L Mualem, S Mufson, S Murgia, J Musser, D Naples, JK Nelson, HB Newman, RJ Nichol, TC Nicholls, JP Ochoa-Ricoux, WP Oliver, R Ospanov, J Paley, V Paolone, A Para, T Patzak, Z Pavlović, G Pawloski, GF Pearce, CW Peck, EA Peterson, DA Petyt, R Pittam, RK Plunkett, A Rahaman, RA Rameika, TM Raufer, B Rebel, J Reichenbacher, PA Rodrigues, C Rosenfeld, HA Rubin, K Ruddick, VA Ryabov, MC Sanchez, N Saoulidou, J Schneps, P Schreiner, S-M Seun, P Shanahan, W Smart, C Smith, A Sousa, B Speakman, P Stamoulis, M Strait, P Symes, N Tagg, RL Talaga, MA Tavera, J Thomas, J Thompson, MA Thomson, JL Thron, G Tinti, I Trostin, VA Tsarev, G Tzanakos, J Urheim, P Vahle, B Viren, CP Ward, DR Ward, M Watabe, A Weber, RC Webb, A Wehmann, N West, C White, SG Wojcicki, DM Wright, T Yang, M Zois, K Zhang, R Zwaska, MINOS Collaboration

Abstract:

This Letter reports new results from the MINOS experiment based on a two-year exposure to muon neutrinos from the Fermilab NuMI beam. Our data are consistent with quantum-mechanical oscillations of neutrino flavor with mass splitting |Deltam2| = (2.43+/-0.13) x 10(-3) eV2 (68% C.L.) and mixing angle sin2(2theta) > 0.90 (90% C.L.). Our data disfavor two alternative explanations for the disappearance of neutrinos in flight: namely, neutrino decays into lighter particles and quantum decoherence of neutrinos, at the 3.7 and 5.7 standard-deviation levels, respectively.

Large-angle production of charged pions with 3-12.9 GeV/c incident protons on nuclear targets

Physical Review C - Nuclear Physics 77:5 (2008)

Authors:

MG Catanesi, E Radicioni, R Edgecock, M Ellis, FJP Soler, C Gößling, S Bunyatov, A Krasnoperov, B Popov, V Serdiouk, V Tereschenko, E Di Capua, G Vidal-Sitjes, A Artamonov, S Giani, S Gilardoni, P Gorbunov, A Grant, A Grossheim, A Ivanchenko, V Ivanchenko, A Kayis-Topaksu, J Panman, I Papadopoulos, E Tcherniaev, I Tsukerman, R Veenhof, C Wiebusch, P Zucchelli, A Blondel, S Borghi, MC Morone, G Prior, R Schroeter, C Meurer, U Gastaldi, GB Mills, JS Graulich, G Grégoire, M Bonesini, F Ferri, M Kirsanov, A Bagulya, V Grichine, N Polukhina, V Palladino, L Coney, D Schmitz, G Barr, A De Santo, F Bobisut, D Gibin, A Guglielmi, M Mezzetto, J Dumarchez, U Dore, D Orestano, F Pastore, A Tonazzo, L Tortora, C Booth, L Howlett, G Skoro, M Bogomilov, M Chizhov, D Kolev, R Tsenov, S Piperov, P Temnikov, M Apollonio, P Chimenti, G Giannini, J Burguet-Castell, A Cervera-Villanueva, JJ Gómez-Cadenas, J Martín-Albo, P Novella, M Sorel, A Tornero

Abstract:

Measurements of the double-differential π± production cross section in the momentum range 100≤p≤800 MeV/c and angle range 0.35≤θ≤2.15 rad in proton-beryllium, proton-carbon, proton-aluminium, proton-copper, proton-tin, proton-tantalum, and proton-lead collisions are presented. The data were taken with the large-acceptance HARP detector in the T9 beam line of the CERN PS. The pions were produced by proton beams in a momentum range from 3 to 12.9 GeV/c hitting a target with a thickness of 5% of a nuclear interaction length. Tracking and identification of the produced particles was performed by using a small-radius cylindrical Time Projection Chamber (TPC) placed inside a solenoidal magnet. Incident particles were identified by an elaborate system of beam detectors. Results are obtained for the double-differential cross sections d2σ/(dpdθ) at six incident proton beam momenta [3, 5, 8, and 8.9 GeV/c (Be only) and 12 and 12.9 GeV/c (Al only)]. They are based on a complete correction of static and dynamic distortions of tracks in the HARP TPC, which allows the complete statistics of the collected data set to be used. The results include and supersede our previously published results and are compatible with these. Results are compared with the GEANT4 and MARS Monte Carlo simulation. © 2008 The American Physical Society.