G. Chardin
DSM
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Publication
Featured researches published by G. Chardin.
European Physical Journal A | 1995
K. Daum; W. Rhode; P. Bareyre; R. Barloutaud; G. Chardin; B. Degrange; J. Ernwein; B. Kuznik; H. Meyer; L. Mosca; L. Moscoso; O. Perdereau; M. Schubnell; S. Tisserant; Y. Wei
AbstractThe combined analysis of the final event set of data on neutrino interactions inside the detector, upward going stopping muons and horizontal muons recorded in the Fréjus experiment is presented. The absolute atmospheric neutrino spectra in the energy range
Physics Letters B | 1989
Ch. Berger; M. Fröhlich; H. Mönch; R. Nisius; F. Raupach; P. Schleper; Y. Benadjal; D. Blum; C. Bourdarios; B. Dudelzak; P. Eschstruth; S. Jullian; D. Lalanne; F. Laplanche; C. Longuemare; C. Paulot; O. Perdereau; Ph. Roy; G. Szklarz; L. Behr; B. Degrange; U. Nguyen-Khac; S. Tisserant; C. Arpesella; P. Bareyre; R. Barloutaud; A. Borg; G. Chardin; J. Ernwein; J.F. Glicenstein
Physics Letters B | 2001
A. Benoit; L. Bergé; A. Broniatowksi; B. Chambon; M. Chapellier; G. Chardin; P. Charvin; M. De Jésus; P. Di Stefano; D. Drain; L. Dumoulin; J. Gascon; G. Gerbier; C. Goldbach; M. Goyot; M. Gros; J.P. Hadjout; A. Juillard; A. de Lesquen; M. Loidl; J. Mallet; S. Marnieros; O. Martineau; N. Mirabolfathi; L. Mosca; L. Miramonti; X.-F. Navick; G. Nollez; P. Pari; M. Stern
320{\rm M}eV< E_{v_e }< 30GeV
Astroparticle Physics | 1996
W. Rhode; K. Daum; P. Bareyre; R. Barloutaud; G. Chardin; B. Degrange; J. Ernwein; B. Kuznik; H. Meyer; L. Mosca; L. Moscoso; O. Perdereau; M. Schubnell; S. Tisserant; Y. Wei
Physics Letters B | 1998
A. Apostolakis; E. Aslanides; G. Backenstoss; P. Bargassa; O. Behnke; A. Benelli; V. Bertin; F. Blanc; P. Bloch; P. Carlson; M. Carroll; E. Cawley; G. Chardin; M.B. Chertok; A. Cody; Marc Dejardin; J. Derre; A. Ealet; C. Eleftheriadis; R. Ferreira-Marques; W. Fetscher; M. Fidecaro; A. Filipčič; D. Francis; J. R. Fry; E. Gabathuler; R. Gamet; H.-J. Gerber; A. Go; C. Guyot
for electron neutrinos and
Physics Letters B | 1995
R. Adler; K. Jon-And; A. Liolios; J. Derre; Eef van Beveren; Dimitri V. Nanopoulos; L. Sakeliou; R. Rickenbach; P. Fassnacht; P. Carlson; Theo Geralis; A. Schopper; R. Gamet; Jorge L. Lopez; E. Machado; C.W.E. van Eijk; Philippe Schune; D. Francis; P. Weber; A. Apostolakis; T. Ruf; J. Pinto da Cunha; D. Garreta; J. Carvalho; M. Carroll; Marc Dejardin; M. Mikuz; M. Fidecaro; I. Mandić; Ch. Yèche
Astroparticle Physics | 1996
A. de Bellefon; I. Berkes; C. Bobin; D. Broszkiewicz; B. Chambon; M. Chapellier; G. Chardin; P. Charvin; V. Chazal; N. Coron; M. De Jésus; D. Drain; L. Dumoulin; Y. Giraud-Heraud; C. Goldbach; G. Guerier; J.P. Hadjout; J. Leblanc; D. Marchand; M. Massaq; Y. Messous; X.-F. Navick; G. Nollez; P. Pari; C. Pastor; M.C. Perillo-Isaac; I. Prostakov; D. Yvon
320{\rm M}eV< E_{v_\mu }< 30GeV
Astroparticle Physics | 2007
S. Fiorucci; A. Benoit; L. Bergé; J. Blümer; A. Broniatowski; B. Censier; A. Chantelauze; M. Chapellier; G. Chardin; S. Collin; X. Defay; M. De Jésus; H. Deschamps; P. Di Stefano; Y. Dolgorouky; L. Dumoulin; K. Eitel; M. Fesquet; J. Gascon; G. Gerbier; C. Goldbach; M. Gros; M. Horn; A. Juillard; R. Lemrani; A. de Lesquen; A. Lubashevskiy; Marchese Luca; S. Marnieros; L. Mosca
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment | 2004
O. Martineau; A. Benoı̂t; L. Bergé; A. Broniatowski; L. Chabert; B. Chambon; M. Chapellier; G. Chardin; P. Charvin; M. De Jésus; P. Di Stefano; D. Drain; L. Dumoulin; J. Gascon; G. Gerbier; E. Gerlic; C. Goldbach; M. Goyot; M. Gros; J.P. Hadjout; S. Hervé; A. Juillard; A. de Lesquen; M. Loidl; J. Mallet; S. Marnieros; N. Mirabolfathi; L. Mosca; X.-F. Navick; G. Nollez
for muon neutrinos are determined. Based on the parameterization of Volkova for thevµ a spectral index of γ=2.66±0.05 is obtained from the ratio of horizontal muons over upward going stopping muons and from the measurement of the energy loss of horizontal muons inside the detector. The neutrino spectra are compared with various flux calculations. They do not show any evidence for neutrino oscillations in agreement with earlier analyses of the Fréjus data.
Physics Letters B | 1999
A. Apostolakis; E. Aslanides; G. Backenstoss; P. Bargassa; O. Behnke; A. Benelli; V. Bertin; F. Blanc; P. Bloch; P. Carlson; M. Carroll; E. Cawley; G. Chardin; M.B. Chertok; M. Danielsson; Marc Dejardin; J. Derre; A. Ealet; Christos Eleftheriadis; L. Faravel; W. Fetscher; M. Fidecaro; A. Filipcic; D. Francis; J. R. Fry; E. Gabathuler; R. Gamet; H.-J. Gerber; A. Go; A. Haselden
Abstract We present an analysis of the neutrino event sample recorded in the Frejus experiment. This sample which corresponds to the 1.56 kt yr final sensitivity of the experiment is compared to the predictions of a Monte Carlo neutrino simulation program. It is based on a recent calculation of the atmospheric neutrino flux at the Frejus latitude which takes into account muon polarization effects. The comparison is performed on the distributions of the visible energy, the zenith angle and the neutrino flavor. Good agreement is obtained between the data and the simulation within statistics.
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