Your search keyword '"C. G¨ollnitz"' showing total 1 results

1. Determination of a time-shift in the OPERA set-up using high-energy horizontal muons in the LVD and OPERA detectors

Author

A. Di Crescenzo, Ante Ljubičić, J. Ebert, Alessandro Paoloni, N. Yu. Agafonova, N. Di Marco, I. Shakirianova, M. Garbini, R. A. Fini, Andrey Alexandrov, M. T. Muciaccia, Björn Wonsak, P. Giusti, V. G. Ryasny, Eugenio Scapparone, M. Hierholzer, Nicola D'Ambrosio, M. Spinetti, Dmitry V. Naumov, L. Patrizii, Maximiliano Sioli, M. Pozzato, J. Lenkeit, Vitaliano Chiarella, N. Mauri, M. Tenti, G. De Lellis, G. Mandrioli, C. Jollet, E. Medinaceli, A. Russo, V. A. Matveev, O. G. Ryazhskaya, S. Dusini, B. Klicek, I. Rostovtseva, V. Yakushev, A. Longhin, Pietro Antonioli, A. Meregaglia, R. Brugnera, Y. A. Gornushkin, C. Gustavino, Krešimir Jakovčić, V. F. Yakushev, A. S. Malgin, L. Votano, A. Garfagnini, G. Sirri, Artem Chukanov, A. Bertolin, F. Grianti, Torben Ferber, A. Schembri, G. Bari, Antonio Ereditato, F. Pupilli, D. Di Ferdinando, A. S. Malguin, Yu. Zaitsev, Caren Hagner, Chiara Sirignano, G. Giacomelli, A.G. Olshevsky, V. V. Ashikhmin, M. Selvi, Utku Kose, S. Simone, S. Zemskova, R. Persiani, S. Dmitrievsky, F. Terranova, A. Sheshukov, B. Büttner, Gianfranca De Rosa, E. Bressan, V. Tioukov, N. Agafonova, M. Dracos, H. Wenniger, O. Ryazhskaya, C. Göllnitz, L. Evans, L. Stanco, A. Hollnagel, Antonino Zichichi, Alessandro Pastore, Mario Stipčević, G. Sartorelli, DE LELLIS, Giovanni, DI CRESCENZO, Antonia, Agafonova, N, Antonioli, P, Ashikhmin, V, Bari, G, Bressan, E, Evans, L, Garbini, M, Giusti, P, Malguin, A, Persiani, R, Ryasny, V, Ryazhskaya, O, Sartorelli, G, Scapparone, E, Selvi, M, Shakirianova, I, Votano, L, Wenniger, H, Yakushev, V, Zichichi, A, Alexandrov, A, Bertolin, A, Brugnera, R, Büttner, B, Chiarella, V, Chukanov, A, D’Ambrosio, N, De Lellis, G, Di Crescenzo, A, Di Ferdinando, D, Di Marco, N, Dmitrievsky, S, Dracos, M, Dusini, S, Ebert, J, Ereditato, A, Ferber, T, Fini, R, Garfagnini, A, Giacomelli, G, Göllnitz, C, Gornushkin, Y, Grianti, F, Gustavino, C, Hagner, C, Hierholzer, M, Hollnagel, A, Jakovcic, K, Jollet, C, Klicek, B, Kose, U, Lenkeit, J, Ljubicic, A, Longhin, A, Malgin, A, Mandrioli, G, Matveev, V, Mauri, N, Medinaceli, E, Meregaglia, A, Muciaccia, M, Naumov, D, Olshevsky, A, Paoloni, A, Pastore, A, Patrizii, L, Pozzato, M, Pupilli, F, Rosa, G, Rostovtseva, I, Russo, A, Schembri, A, Sheshukov, A, Simone, S, Sioli, M, Sirignano, C, Sirri, G, Spinetti, M, Stanco, L, Stipcevic, M, Tenti, M, Terranova, F, Tioukov, V, Wonsak, B, Zaitsev, Y, Zemskova, S, N.Yu. Agafonova, P. Antonioli, V.V. Ashikhmin, G. Bari, E. Bressan, L. Evan, M. Garbini, P. Giusti, A.S. Malguin, R. Persiani, V.G. Ryasny, O.G. Ryazhskaya, G. Sartorelli, E. Scapparone, M. Selvi, I.R. Shakirianova, L. Votano, H. Wenniger, V.F. Yakushev, A. Zichichi, N. Agafonova, A. Alexandrov, A. Bertolin, R. Brugnera, B. B¨uttner, V. Chiarella, A. Chukanov, N. D’Ambrosio, G. De Lelli, A. Di Crescenzo, D. Di Ferdinando, N. Di Marco, S. Dmitrievsky, M. Draco, S. Dusini, J. Ebert, A. Ereditato, T. Ferber, R.A. Fini, A. Garfagnini, G. Giacomelli, C. G¨ollnitz, Y. Gornushkin, F. Grianti, C. Gustavino, C. Hagner, M. Hierholzer, A. Hollnagel, K. Jakovcic, C. Jollet, B. Klicek, U. Kose, J. Lenkeit, A. Ljubicic, A. Longhin, A. Malgin, G. Mandrioli, V. Matveev, N. Mauri, E. Medinaceli, A. Meregaglia, M.T. Muciaccia, D. Naumov, A. Olshevsky, A. Paoloni, A. Pastore, L. Patrizii, M. Pozzato, F. Pupilli, G. Rosa, I. Rostovtseva, A. Russo, O. Ryazhskaya, A. Schembri, I. Shakirianova, A. Sheshukov, S. Simone, M. Sioli, C. Sirignano, G. Sirri, M. Spinetti, L. Stanco, M. Stipcevic, M. Tenti, F. Terranova, V. Tioukov, B. Wonsak, V. Yakushev, Y. Zaitsev, and S. Zemskova

Subjects

Physics, Muon, Large Hadron Collider, Physics - Instrumentation and Detectors, Anomaly (natural sciences), Opera, NEUTRINO DETECTOR, General Physics and Astronomy, FOS: Physical sciences, Cosmic ray, Instrumentation and Detectors (physics.ins-det), High Energy Physics - Experiment, Nuclear physics, neutrino, High Energy Physics - Phenomenology, High Energy Physics - Experiment (hep-ex), High Energy Physics - Phenomenology (hep-ph), Neutrino detector, COSMIC RAY, Measurements of neutrino speed, Neutrino, ATMOSPHERIC MUONS, Particle Physics - Experiment, perihelion precession, cosmological constant, solar-system, advance, planets, mercury

Abstract

The purpose of this work is to report the measurement of a time-shift in the OPERA set-up in a totally independent way from Time Of Flight (TOF) measurements of CNGS neutrino events. The LVD and OPERA experiments are both installed in the same laboratory: LNGS. The relative position of the two detectors, separated by an average distance of ~ 160 m, allows the use of very high energy horizontal muons to cross-calibrate the timing systems of the two detectors, using a TOF technique which is totally independent from TOF of CNGS neutrino events. Indeed, the OPERA-LVD direction lies along the so-called "Teramo anomaly", a region in the Gran Sasso massif where LVD has established, many years ago, the existence of an anomaly in the mountain structure, which exhibits a low m. w. e. thickness for horizontal directions. The "abundant" high-energy horizontal muons (nearly 100 per year) going through LVD and OPERA exist because of this anomaly in the mountain orography. The total live time of the data in coincidence correspond to 1200 days from mid 2007 until March 2012. The time coincidence study of LVD and OPERA detectors is based on 306 cosmic horizontal muon events and shows the existence of a negative time shift in the OPERA set-up of the order of deltaT(AB) = - (73 \pm 9) ns when two calendar periods, A and B, are compared. This result shows a systematic effect in the OPERA timing system from August 2008 until December 2011. The size of the effect is comparable with the neutrino velocity excess recently measured by OPERA. It is probably interesting not to forget that with the MRPC technology developed by the ALICE Bologna group the TOF world record accuracy of 20 ps was reached. That technology can be implemented at LNGS for a high precision determination of TOF with the CNGS neutrino beams of an order of magnitude smaller than the value of the OPERA systematic effect. The purpose of this work is to report the measurement of a time-shift in the OPERA set-up in a totally independent way from Time Of Flight (TOF) measurements of CNGS neutrino events. The LVD and OPERA experiments are both installed in the same laboratory: LNGS. The relative position of the two detectors, separated by an average distance of ~ 160 m, allows the use of very high energy horizontal muons to cross-calibrate the timing systems of the two detectors, using a TOF technique which is totally independent from TOF of CNGS neutrino events. Indeed, the OPERA-LVD direction lies along the so-called 'Teramo anomaly', a region in the Gran Sasso massif where LVD has established, many years ago, the existence of an anomaly in the mountain structure, which exhibits a low m. w. e. thickness for horizontal directions. The 'abundant' high-energy horizontal muons (nearly 100 per year) going through LVD and OPERA exist because of this anomaly in the mountain orography. The total live time of the data in coincidence correspond to 1200 days from mid 2007 until March 2012. The time coincidence study of LVD and OPERA detectors is based on 306 cosmic horizontal muon events and shows the existence of a negative time shift in the OPERA set-up of the order of deltaT(AB) = - (73 \pm 9) ns when two calendar periods, A and B, are compared. This result shows a systematic effect in the OPERA timing system from August 2008 until December 2011. The size of the effect is comparable with the neutrino velocity excess recently measured by OPERA. It is probably interesting not to forget that with the MRPC technology developed by the ALICE Bologna group the TOF world record accuracy of 20 ps was reached. That technology can be implemented at LNGS for a high precision determination of TOF with the CNGS neutrino beams of an order of magnitude smaller than the value of the OPERA systematic effect.

Published

2012