Search for eV (pseudo)scalar penetrating particles in the SPS neutrino beam

6533b7d4fe1ef96bd126291c

RESEARCH PRODUCT

Search for eV (pseudo)scalar penetrating particles in the SPS neutrino beam

P. Astier D. Autiero A. Baldisseri M. Baldo-ceolin G. Ballocchi M. Banner G. Bassompierre K. Benslama N. Besson I. Bird B. Blumenfeld F. Bobisut J. Bouchez S. Boyd A. Bueno S. Bunyatov L. Camilleri A. Cardini P. W. Cattaneo V. Cavasinni A. Cervera-villanueva G. Collazuol G. Conforto C. Conta M. Contalbrigo R. Cousins D. Daniels H. Degaudenzi T. Del Prete A. Santo T. Dignan L. Di Lella E. Silva E. Do Couto J. Dumarchez M. Ellis G. J. Feldman R. Ferrari D. Ferrhre V. Flaminio M. Fraternali J. M. Gaillard E. Gangler A. Geiser D. Geppert D. Gibin S. N. Gninenko A. Godley J. J. Gsmez-cadenas J. Gosset C. Gossling M. Gouanere A. Grant G. Graziani A. Guglielmi C. Hagner J. Hernando D. Hubbard P. Hurst N. Hyett E. Iacopini C. Joseph F. Juget M. M. Kirsanov O. Klimov J. Kokkonen A. Kovzelev N. V. Krasnikov A. Krasnoperov V. E. Kuznetsov S. Lacaprara C. Lachaud B. Lakic A. Lanza L. La Rotonda M. Laveder Antoine Letessier Selvon J. M. Levy L. Linssen A. Ljubicic J. Long A. Lupi A. Marchionni F. Martelli X. Mechain J. P. Mendiburu J. P. Meyer M. Mezzetto S. R. Mishra G. F. Moorhead L. Mossuz P. Nedelec Yu. Nefedov C. Nguyen-mau D. Orestano F. Pastore L. S. Peak E. Pennacchio H. Pessard R. Petti A. Placci G. Polesello D. Pollmann A. Yu Polyarush B. Popov C. Poulsen J. Rico C. Roda A. Rubbia F. Salvatore K. Schahmaneche B. Schmidt T. Schmidt M. Sevior D. Sillou F. J. P. Soler Gabriella Sozzi D. D. Steele M. Steininger U. Stiegler M. Stipcevic T. Stolarczyk M. Tareb-reyes G. N. Taylor V. Tereshchenko A. N. Toropin A. M. Touchard S. N. Tovey M. T. Tran E. Tsesmelis J. Ulrichs L. Vacavant M. Valdata-nappi V. Valuev F. Vannucci K. E. Varvell M. Veltri V. Vercesi D. Verkindt J. M. Vieira T. Vinogradova S. A. Volkov F. V. Weber T. Weisse F. F. Wilson L. J. Winton B. D. Yabsley H. Zaccone K. Zioutas K. Zuber P. Zuccon

subject

Physics Nuclear and High Energy Physics Particle physics Photon [PHYS.HEXP] Physics [physics]/High Energy Physics - Experiment [hep-ex]010308 nuclear & particles physics Physics::Instrumentation and Detectors Astrophysics::High Energy Astrophysical Phenomena Virtual particle Física Scalar boson 01 natural sciences 7. Clean energy Nuclear physics Pseudoscalar Neutrino detector 0103 physical sciences [PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex]High Energy Physics::Experiment Neutrino 010306 general physics Axion Primakoff effect Particle Physics - Experiment

description

We carried out a model-independent search for light scalar or pseudoscalar particles $a$'s (an example of which is the axion) that couple to two photons by using a photon-regeneration method at high energies allowing a substantial increase in the sensitivity to $eV$ masses.\ The experimental set-up is based on elements of the CERN West Area Neutrino Facility (WANF) beam line and theNOMAD neutrino detector.\ The new particles, if they exist, could be produced through the Primakoff effect in interactions of high energy photons, generated by the 450 $GeV$ protons in the CERN SPS neutrino target, with virtual photons from the WANF horn magnetic field.\ The particles would penetrate the downstream shieldingand would be observed in the NOMAD neutrino detector through their re-conversion into real high energy photons byinteracting with the virtual photons from the magnetic field of the NOMAD dipole magnet.\ From the analysis of the data collected during the 1996 run with $1.08\times10^{19}$ protons on target, 312 candidate events with energy between 5 and 140 $GeV$ were found.\ This number is in general agreement with the expectation of 272$\pm$18 background events from standard neutrino processes.\ A 90 $\% ~CL$ upper limit on the $a\gamma\gamma$-coupling $g_{a\gamma\gamma} <$ 1.5$\times10^{-4}~GeV^{ -1}$ for $a$ masses up to 40 $eV$ is obtained.\

year	journal	country	edition	language
2000-01-01

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