B. Soulé
University of Bordeaux
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Publication
Featured researches published by B. Soulé.
Physical Review D | 2014
R. Arnold; C. Augier; J. Baker; A. S. Barabash; A. Basharina-Freshville; S. Blondel; S. Blot; M. Bongrand; V. Brudanin; J. Busto; A.J. Caffrey; C. Cerna; A. Chapon; E. Chauveau; D. Duchesneau; D. Durand; V. Egorov; G. Eurin; J. J. Evans; R. Flack; X. Garrido; H. Gómez; B. Guillon; P. Guzowski; R. Hodák; Ph. Hubert; C. Hugon; S. Jullian; A. Klimenko; O. Kochetov
We report the results of a search for the neutrinoless double-β decay (0νββ) of Mo100, using the NEMO-3 detector to reconstruct the full topology of the final state events. With an exposure of 34.7 kg·y, no evidence for the 0νββ signal has been found, yielding a limit for the light Majorana neutrino mass mechanism of T1/2(0νββ)>1.1×1024 years (90% C.L.) once both statistical and systematic uncertainties are taken into account. Depending on the nuclear matrix elements this corresponds to an upper limit on the Majorana effective neutrino mass of ⟨mν⟩<0.3–0.9 eV (90% C.L.). Constraints on other lepton number violating mechanisms of 0νββ decays are also given. Searching for high-energy double electron events in all suitable sources of the detector, no event in the energy region [3.2–10] MeV is observed for an exposure of 47 kg·y.
Nuclear Physics | 2014
R. Arnold; C. Augier; A. S. Barabash; A. Basharina-Freshville; S. Blondel; S. Blot; M. Bongrand; V. Brudanin; J. Busto; A.J. Caffrey; P. Čermák; C. Cerna; A. Chapon; E. Chauveau; L. Dragounová; D. Duchesneau; D. Durand; V. Egorov; G. Eurin; J. J. Evans; R. Flack; X. Garrido; H. Gómez; B. Guillon; P. Guzowski; R. Hodák; Ph. Hubert; C. Hugon; J. Hůlka; S. Jullian
Double beta decay of 100Mo to the excited states of daughter nuclei has been studied using a 600 cm3 low-background HPGe detector and an external source consisting of 2588 g of 97.5% enriched metallic 100Mo, which was formerly inside the NEMO-3 detector and used for the NEMO-3 measurements of 100Mo. The half-life for the two-neutrino double beta decay of 100Mo to the excited View the MathML source01+ state in 100Ru is measured to be T1/2=[7.5±0.6(stat)±0.6(syst)]⋅1020 yrT1/2=[7.5±0.6(stat)±0.6(syst)]⋅1020 yr. For other (0ν+2ν)(0ν+2ν) transitions to the View the MathML source21+, View the MathML source22+, View the MathML source02+, View the MathML source23+ and View the MathML source03+ levels in 100Ru, limits are obtained at the level of ∼(0.25-1.1)⋅1022 yr∼(0.25-1.1)⋅1022 yr.
Physical Review D | 2016
R. Arnold; C. Augier; A. M. Bakalyarov; J. Baker; A. S. Barabash; A. Basharina-Freshville; S. Blondel; S. Blot; M. Bongrand; V. Brudanin; J. Busto; A.J. Caffrey; S. Calvez; M. Cascella; C. Cerna; J. P. Cesar; A. Chapon; E. Chauveau; A. Chopra; D. Duchesneau; D. Durand; V. Egorov; G. Eurin; J. J. Evans; L. Fajt; D. Filosofov; R. L. Flack; X. Garrido; Haley Louise Gomez; B. Guillon
The NEMO-3 experiment at the Modane Underground Laboratory has investigated the double-
Physical Review D | 2016
R. Arnold; C. Augier; J. Baker; A. S. Barabash; A. Basharina-Freshville; S. Blondel; S. Blot; M. Bongrand; V. Brudanin; J. Busto; A. J. Caffrey; S. Calvez; M. Cascella; C. Cerna; J. P. Cesar; A. Chapon; E. Chauveau; A. Chopra; D. Duchesneau; D. Durand; V. Egorov; G. Eurin; J. J. Evans; L. Fajt; D. Filosofov; R. L. Flack; X. Garrido; H. Gómez; B. Guillon; P. Guzowski
\beta
Applied Radiation and Isotopes | 2017
P. Loaiza; A. S. Barabash; A. Basharina-Freshville; E. Birdsall; S. Blondel; S. Blot; M. Bongrand; D. Boursette; V. Brudanin; J. Busto; A.J. Caffrey; S. Calvez; M. Cascella; C. Cerna; E. Chauveau; A. Chopra; S. De Capua; D. Duchesneau; D. Durand; V. Egorov; G. Eurin; J. J. Evans; L. Fajt; D. Filosofov; R. Flack; X. Garrido; H. Gómez; B. Guillon; P. Guzowski; K. Holý
decay of
Physical Review D | 2014
R. Arnold; C. Augier; J. Baker; A. S. Barabash; A. Basharina-Freshville; S. Blondel; S. Blot; M. Bongrand; V. Brudanin; J. Busto; A. J. Caffrey; C. Cerna; A. Chapon; E. Chauveau; D. Duchesneau; D. Durand; V. Egorov; G. Eurin; J. J. Evans; R. L. Flack; X. Garrido; Haley Louise Gomez; B. Guillon; P. Guzowski; R. Hodák; Ph. Hubert; C. Hugon; S. Jullian; A. Klimenko; O. Kochetov
^{48}{\rm Ca}
Physical Review D | 2015
R. Arnold; C. Augier; J. Baker; A. S. Barabash; A. Basharina-Freshville; S. Blondel; S. Blot; M. Bongrand; V. Brudanin; J. Busto; A. J. Caffrey; S. Calvez; C. Cerna; J. P. Cesar; A. Chapon; E. Chauveau; D. Duchesneau; D. Durand; V. Egorov; G. Eurin; J. J. Evans; L. Fajt; D. Filosofov; R. L. Flack; X. Garrido; Haley Louise Gomez; B. Guillon; P. Guzowski; R. Hodák; A. Huber
. Using
Physical Review Letters | 2017
R. Arnold; C. Augier; A. S. Barabash; A. Basharina-Freshville; S. Blondel; S. Blot; M. Bongrand; D. Boursette; V. Brudanin; J. Busto; A.J. Caffrey; S. Calvez; M. Cascella; C. Cerna; J. P. Cesar; A. Chapon; E. Chauveau; A. Chopra; L. Dawson; D. Duchesneau; D. Durand; V. Egorov; G. Eurin; J. J. Evans; L. Fajt; D. Filosofov; R. Flack; X. Garrido; H. Gómez; B. Guillon
5.25
Journal of Instrumentation | 2017
A. S. Barabash; A. Basharina-Freshville; E. Birdsall; S. Blondel; S. Blot; M. Bongrand; D. Boursette; V. Brudanin; J. Busto; A.J. Caffrey; S. Calvez; M. Cascella; S. Cebrián; C. Cerna; J. P. Cesar; E. Chauveau; A. Chopra; T. Dafni; S. De Capua; D. Duchesneau; D. Durand; V. Egorov; G. Eurin; J. J. Evans; L. Fajt; D. Filosofov; R. Flack; X. Garrido; H. Gómez; B. Guillon
yr of data recorded with a
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment | 2017
A. S. Barabash; A. Basharina-Freshville; S. Blot; M. Bongrand; Ch Bourgeois; D. Breton; V. Brudanin; H. Burešovà; J. Busto; A. J. Caffrey; S. Calvez; M. Cascella; C. Cerna; J. P. Cesar; E. Chauveau; A. Chopra; G. Claverie; S. De Capua; F. Delalee; D. Duchesneau; V. Egorov; G. Eurin; J. J. Evans; L. Fajt; D. Filosofov; R. Flack; X. Garrido; H. Gómez; B. Guillon; P. Guzowski
6.99\,{\rm g}
