C
C. Augier
Researcher at University of Paris-Sud
Publications - 8
Citations - 652
C. Augier is an academic researcher from University of Paris-Sud. The author has contributed to research in topics: Double beta decay & Neutrino. The author has an hindex of 6, co-authored 8 publications receiving 606 citations. Previous affiliations of C. Augier include University of Paris.
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Journal ArticleDOI
Probing new physics models of neutrinoless double beta decay with SuperNEMO
R. Arnold,C. Augier,J. Baker,A. S. Barabash,A. Basharina-Freshville,M. Bongrand,V.B. Brudanin,A. J. Caffrey,S. Cebrián,A. Chapon,E. Chauveau,T. Dafni,Frank F. Deppisch,J. S. Díaz,Dominique Durand,V. Egorov,J. J. Evans,R. Flack,K-I. Fushima,I. García Irastorza,X. Garrido,Haley Louise Gomez,B. Guillon,A. Holin,K. Holy,J. J. Horkley,Ph. Hubert,C. Hugon,F.J. Iguaz,Nobuhiro Ishihara,C. M. Jackson,S. Jullian,M. Kauer,O.I. Kochetov,S. I. Konovalov,V.E. Kovalenko,V.E. Kovalenko,T. Lamhamdi,Karol Lang,Guillaume Lutter,G. Luzón,F. Mamedov,Ch. Marquet,F. Mauger,F. Monrabal,A. Nachab,I. Nasteva,Igor Nemchenok,C. H. Nguyen,Masaharu Nomachi,F. Nova,H. Ohsumi,R. B. Pahlka,F. Perrot,F. Piquemal,Pavel P. Povinec,B. Richards,J. S. Ricol,C. L. Riddle,Alicia Rodríguez,Ruben Saakyan,X. Sarazin,J. K. Sedgbeer,Luis M. Serra,Yu. Shitov,L. Simard,Fedor Šimkovic,S. Söldner-Rembold,I. Stekl,C. S. Sutton,Y. Tamagawa,Juergen Thomas,V. V. Timkin,V.I. Tretyak,Vl. I. Tretyak,V. I. Umatov,I. Vanyushin,R. Vasiliev,V. Vasiliev,V. Vorobel,D. Waters,N. Yahlali,A. Žukauskas +82 more
TL;DR: The possibility to probe new physics scenarios of light Majorana neutrino exchange and right-handed currents at the planned next generation neutrinoless double beta decay experiment SuperNEMO is discussed in this article.
Journal ArticleDOI
Probing New Physics Models of Neutrinoless Double Beta Decay with SuperNEMO
R. Arnold,C. Augier,J. Baker,A. S. Barabash,A. Basharina-Freshville,M. Bongrand,V.B. Brudanin,A. J. Caffrey,S. Cebrián,A. Chapon,E. Chauveau,T. Dafni,Frank F. Deppisch,J. S. Díaz,Dominique Durand,V. Egorov,J. J. Evans,R. Flack,K-I. Fushima,I. García Irastorza,X. Garrido,Haley Louise Gomez,B. Guillon,A. Holin,K. Holy,J. J. Horkley,Ph. Hubert,C. Hugon,F.J. Iguaz,Nobuhiro Ishihara,C. M. Jackson,S. Jullian,M. Kauer,O.I. Kochetov,S. I. Konovalov,V.E. Kovalenko,V.E. Kovalenko,T. Lamhamdi,Karol Lang,Guillaume Lutter,G. Luzón,F. Mamedov,Ch. Marquet,F. Mauger,F. Monrabal,A. Nachab,I. Nasteva,Igor Nemchenok,C. H. Nguyen,Masaharu Nomachi,F. Nova,H. Ohsumi,R. B. Pahlka,F. Perrot,F. Piquemal,Pavel P. Povinec,B. Richards,J. S. Ricol,C. L. Riddle,Alicia Rodríguez,Ruben Saakyan,X. Sarazin,J. K. Sedgbeer,Luis M. Serra,Yu. Shitov,L. Simard,Fedor Šimkovic,S. Söldner-Rembold,I. Stekl,C. S. Sutton,Y. Tamagawa,Juergen Thomas,V. V. Timkin,V.I. Tretyak,Vl. I. Tretyak,V. I. Umatov,I. Vanyushin,R. Vasiliev,V. Vasiliev,V. Vorobel,D. Waters,N. Yahlali,A. Žukauskas +82 more
TL;DR: In this paper, the possibility to probe new physics scenarios of light Majorana neutrino exchange and right-handed currents at the planned next generation neutrinoless double beta decay experiment SuperNEMO is discussed.
Journal ArticleDOI
Technical design and performance of the NEMO 3 detector
R. Arnold,C. Augier,A. M. Bakalyarov,J. Baker,A. S. Barabash,Ph. Bernaudin,M. Bouchel,V. B. Brudanin,A. J. Caffrey,J. Cailleret,J.E. Campagne,D. Dassié,V. G. Egorov,K. Errahmane,A.I. Etienvre,T. Filipova,J. Forget,A. Guiral,P. Guiral,J.L. Guyonnet,F. Hubert,Ph. Hubert,B. Humbert,R. Igersheim,P. Imbert,C. Jollet,S. Jullian,I. Kisel,A. A. Klimenko,O.I. Kochetov,V.E. Kovalenko,D. Lalanne,F. Laplanche,B. Lavigne,V. I. Lebedev,J. Lebris,F. Leccia,A. Leconte,I. Linck,C. Longuemare,Ch. Marquet,G. Martin-Chassard,F. Mauger,Igor Nemchenok,I. Nikolic-Audit,H. Ohsumi,S. Pécourt,F. Piquemal,J. L. Reyss,A. Richard,C. L. Riddle,J. Rypko,X. Sarazin,L. Simard,F. Scheibling,Yu. Shitov,A.A. Smolnikov,I. Stekl,C.S. Sutton,G. Szklarz,V. V. Timkin,Vl.I. Tretyak,V. I. Umatov,L. Vala,I. Vanushin,S. I. Vasiliev,V. Vasilyev,Vit Vorobel,Ts. Vylov,J. Wurtz,S. V. Zhukov +70 more
TL;DR: The NEMO3 detector as discussed by the authors uses a tracking-calorimeter technique in order to investigate double beta decay processes for several isotopes, and it is used in the Frejus Underground Laboratory (L.S.M. Laboratoire Souterrain de Modane).
Journal ArticleDOI
Result of the search for neutrinoless double-$\beta$ decay in $^{100}$Mo with the NEMO-3 experiment
R. Arnold,C. Augier,J. Baker,A. S. Barabash,A. Basharina-Freshville,S. Blondel,Stijn Blot,M. Bongrand,V.B. Brudanin,V.B. Brudanin,Jose Busto,A. J. Caffrey,S. Calvez,C. Cerna,J.P. Cesar,A. Chapon,E. Chauveau,D. Duchesneau,Dominique Durand,V. Egorov,G. Eurin,J. J. Evans,Lukas Fajt,D.V. Filosofov,R. Flack,Xavier Garrido,Haley Louise Gomez,B. Guillon,P. Guzowski,R. Hodák,A. Huber,Ph. Hubert,C. Hugon,S. Jullian,A. A. Klimenko,O.I. Kochetov,S. I. Konovalov,V.E. Kovalenko,D. Lalanne,K. Lang,Y. Lemière,T. Le Noblet,Z. J. Liptak,P. Loaiza,Guillaume Lutter,F. Mamedov,Catherine Marquet,F. Mauger,B. Morgan,J. Mott,Igor Nemchenok,Masaharu Nomachi,F. Nova,Frédéric Nowacki,H. Ohsumi,R. B. Pahlka,F. Perrot,F. Piquemal,Pavel P. Povinec,P. Přidal,Y. A. Ramachers,A. Remoto,J. L. Reyss,B. Richards,C. L. Riddle,E. Rukhadze,Ruben Saakyan,X. Sarazin,Yu. Shitov,Yu. Shitov,L. Simard,Fedor Šimkovic,A. Smetana,Karel Smolek,A.A. Smolnikov,S. Söldner-Rembold,B. Soulé,I. Stekl,Jouni Suhonen,C. S. Sutton,G. Szklarz,Juergen Thomas,V. V. Timkin,S. Torre,Vl.I. Tretyak,V.I. Tretyak,V. I. Umatov,I. Vanushin,C. Vilela,V. Vorobel,D. Waters,A. Žukauskas +91 more
TL;DR: The NEMO-3 detector was designed to search for neutrinoless double neutrino decay as mentioned in this paper, and no evidence of neutrinos decaying in the data was found.
Journal ArticleDOI
Gamma-ray flux in the Fréjus underground laboratory measured with NaI detector
H. Ohsumi,Rodolfo Gurriaran,Ph. Hubert,R. Arnold,C. Augier,J. Baker,A. S. Barabash,O. Bing,V. B. Brudanin,A. J. Caffrey,J.E. Campagne,E. Caurier,D. Dassié,V. G. Egorov,K. Errahmane,R. Eschbach,T. Filipova,J.L. Guyonnet,F. Hubert,C. Jollet,S. Jullian,I. Kisel,A. A. Klimenko,O.I. Kochetov,V. N. Kornoukhov,V.E. Kovalenko,V.F. Kuzichev,D. Lalanne,F. Laplanche,F. Leccia,I. Linck,C. Longuemare,Ch. Marquet,F. Mauger,H. W. Nicholson,I. Nikolic-Audit,F. Piquemal,J. L. Reyss,X. Sarazin,A.A. Smolnikov,I. Stekl,Jouni Suhonen,C.S. Sutton,G. Szklarz,V. V. Timkin,Vl.I. Tretyak,V. I. Umatov,L. Vala,I. Vanyushin,A. Vareille,V. Vasiliev,S. Vasiliev,Vit Vorobel,Ts. Vylov +53 more
TL;DR: In this paper, the authors studied the γ-ray flux in the Frejus underground laboratory using an NaI detector surrounded by different diagonostic shields and found that the shape of the spectrum is well explained by U, Th and daughters, which are internal contaminations in the NaI crystal.