A
A. J. Noble
Researcher at Queen's University
Publications - 58
Citations - 3699
A. J. Noble is an academic researcher from Queen's University. The author has contributed to research in topics: Dark matter & Sudbury Neutrino Observatory. The author has an hindex of 24, co-authored 51 publications receiving 3467 citations. Previous affiliations of A. J. Noble include Carleton University & TRIUMF.
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Journal ArticleDOI
Searches for high-frequency variations in the 8B solar neutrino flux at the Sudbury Neutrino Observatory
B. Aharmim,S. N. Ahmed,A. E. Anthony,A. E. Anthony,N. Barros,E. W. Beier,Alain Bellerive,B. Beltran,M. Bergevin,M. Bergevin,S. D. Biller,K. Boudjemline,Mark Guy Boulay,T.H. Burritt,Bei Cai,Yuen-Dat Chan,D. Chauhan,M. L. Chen,B. T. Cleveland,G. A. Cox,X. Dai,X. Dai,X. Dai,H. Deng,J. A. Detwiler,M. DiMarco,P. J. Doe,G. Doucas,P.-L. Drouin,C. A. Duba,F. A. Duncan,Monica Dunford,Monica Dunford,E. D. Earle,Steven Elliott,Steven Elliott,Hal Evans,G. T. Ewan,J. Farine,J. Farine,H. Fergani,F. Fleurot,R. J. Ford,Joseph A. Formaggio,Joseph A. Formaggio,N. Gagnon,J. Tm. Goon,K. Graham,K. Graham,E. Guillian,S. Habib,R. L. Hahn,A. L. Hallin,E. D. Hallman,P. J. Harvey,R. Hazama,R. Hazama,W. J. Heintzelman,J. Heise,R. L. Helmer,Andrew Hime,C. Howard,M. A. Howe,M. Huang,M. Huang,B. Jamieson,N. A. Jelley,K. J. Keeter,Joshua R. Klein,Joshua R. Klein,L. L. Kormos,M. Kos,C. Kraus,C. B. Krauss,T. Kutter,Christopher C. M. Kyba,J. Law,I. T. Lawson,K. T. Lesko,J. R. Leslie,I. Levine,I. Levine,J. C. Loach,J. C. Loach,R. MacLellan,S. Majerus,H. B. Mak,J. Maneira,R. D. Martin,R. D. Martin,N. McCauley,N. McCauley,N. McCauley,A. B. McDonald,S. McGee,M. L. Miller,M. L. Miller,Benjamin Monreal,Benjamin Monreal,Jocelyn Monroe,B. Morissette,Bernie G. Nickel,A. J. Noble,A. J. Noble,H. M. O'Keeffe,H. M. O'Keeffe,N. S. Oblath,G. D. Orebi Gann,G. D. Orebi Gann,S. M. Oser,R. A. Ott,S. J. M. Peeters,S. J. M. Peeters,A. W. P. Poon,G. Prior,G. Prior,S. D. Reitzner,Keith Rielage,Keith Rielage,B. C. Robertson,R. G. H. Robertson,M. H. Schwendener,J. A. Secrest,J. A. Secrest,S. R. Seibert,S. R. Seibert,O. Simard,David A. Sinclair,David A. Sinclair,P. Skensved,T. J. Sonley,T. J. Sonley,L. C. Stonehill,L. C. Stonehill,G. Tešić,N. Tolich,T. Tsui,C. D. Tunnell,R. Van Berg,B.A. VanDevender,C. J. Virtue,B. L. Wall,D. Waller,H. Wan Chan Tseung,H. Wan Chan Tseung,D. L. Wark,D. L. Wark,Peter Watson,N. West,J. F. Wilkerson,J. F. Wilkerson,J. R. Wilson,J. R. Wilson,J. M. Wouters,A. Wright,Minfang Yeh,F. Zhang,Kai Zuber,Kai Zuber +158 more
TL;DR: In this paper, the authors performed three searches for high-frequency signals in the solar neutrino flux measured by the Sudbury Neutrino Observatory, motivated by the possibility that solar g-mode oscillations could affect the production or propagation of solar 8B neutrinos.
Journal ArticleDOI
Studies of a full-scale mechanical prototype line for the ANTARES neutrino telescope and tests of a prototype instrument for deep-sea acoustic measurements
M. Ageron,Juanan Aguilar,A. Albert,F. Ameli,M. Anghinolfi,Gisela Anton,S. Anvar,F.E. Ardellier-Desages,Elie Aslanides,J. J. Aubert,R. Auer,E. Barbarito,S. Basa,M. Battaglieri,M. Bazzotti,Yvonne Becherini,Nicole Béthoux,J. Beltramelli,V. Bertin,A. Bigi,M. Billault,R. Blaes,N. de Botton,M.C. Bouwhuis,R. Bruijn,Jürgen Brunner,G. F. Burgio,J. Busto,F. Cafagna,L. Caillat,A. Calzas,Antonio Capone,L. Caponetto,E. Carmona,J. Carr,D. Castel,Emanuele Castorina,Vincenzo Cavasinni,S. Cecchini,A. Ceres,Philippe Charvis,P. Chauchot,Tommaso Chiarusi,M. Circella,J.-Y. Coail,C. Colnard,Chantal Compère,R. Coniglione,N. Cottini,P. Coyle,S. Cuneo,A. S. Cussatlegras,G. Damy,R. van Dantzig,G. Debonis,C. De Marzo,R. De Vita,I. Dekeyser,Eric Delagnes,D. Denans,Anne Deschamps,J.-X. Dessa,J.J. Destelle,B. Dinkespieler,C. Distefano,Corinne Donzaud,J. F. Drogou,F. Druillole,Dominique Durand,J. P. Ernenwein,Stephanie Escoffier,E. Falchini,S. Favard,F. Fehr,F. Feinstein,C. Fiorello,V. Flaminio,K. Fratini,J.-L. Fuda,S. Galeotti,J.M. Gallone,G. Giacomelli,N. Girard,C. Gojak,P. Goret,Kay Graf,F. Guilloux,Gregory David Hallewell,Mohsen Harakeh,B. Hartmann,A. Heijboer,E. Heine,Yann Hello,J.J. Hernández-Rey,J. Hößl,C. Hoffman,J. Hogenbirk,J.R. Hubbard,M. Jaquet,M. Jaspers,M. de Jong,F. Jouvenot,Nasser Kalantar-Nayestanaki,Alexander Kappes,Timo Karg,U. F. Katz,P. Keller,Jean-Paul Kneib,E. Kok,H. Kok,P. Kooijman,C. Kopper,Antoine Kouchner,W. Kretschmer,A. Kruijer,S. Kuch,P. Lagier,Robert Lahmann,G. Lamanna,Patrick Lamare,Guillaume Lambard,J.-C. Languillat,H. Laschinsky,Julien Lavalle,Y. Le Guen,H. Le Provost,A. Le Van Suu,Dominique Lefèvre,T. Legou,G. Lelaizant,G. Lim,D. Lo Presti,G. Loaec,H. Loehner,S. Loucatos,F. Louis,F. Lucarelli,V. Lyashuk,S. Mangano,M. Marcelin,Annarita Margiotta,R. Masullo,F. Mazéas,Alain Mazure,Rosario Megna,M. Melissas,E. Migneco,M. Mongelli,T. Montaruli,M. Morganti,L. Moscoso,Holger Motz,Mario Musumeci,C. Naumann,M. Naumann-Godo,V. Niess,A. J. Noble,C. Olivetto,R. Ostasch,Nathalie Palanque-Delabrouille,P. Payre,H. Peek,Ana G. Pérez,C. Petta,P. Piattelli,R. Pillet,J.-P. Pineau,J. Poinsignon,V. Popa,Thierry Pradier,C. Racca,N. Randazzo,J. van Randwijk,Diego Real,Marc Régnier,B. van Rens,F. Réthoré,P. Rewiersma,G. Riccobene,V. Rigaud,M. Ripani,V. Roca,Chiara Roda,Jean-Francois Rolin,A. Rostovtsev,J. Roux,M. Ruppi,G.V. Russo,G. Rusydi,F. Salesa,K. Salomon,Paolo Sapienza,F. Schmitt,J. P. Schuller,Rezo Shanidze,I. Sokalski,T. Spona,Maurizio Spurio,G. van der Steenhoven,T. Stolarczyk,K. Streeb,L. R. Sulak,M. Taiuti,Christian Tamburini,Charling Tao,L. A. M. Tasca,G. Terreni,F. Urbano,P. Valdy,V. Valente,B. Vallage,G. Vaudaine,G. Venekamp,B. Verlaat,P. Vernin,R. van Wijk,G. Wijnker,G. Wobbe,E. A. De Wolf,A. F. Yao,D. Zaborov,H. Zaccone,J.D. Zornoza,J. Zúñiga +223 more
TL;DR: In this paper, a full scale mechanical prototype line was deployed to a depth of 2500 m to test the leak tightness of the electronics 4 containers and the pressure-resistant properties of an electromechanical cable under evaluation for use in the ANTARES 5 deep-sea neutrino telescope.
Journal ArticleDOI
DEAP-3600 Dark Matter Search
M. Kuźniak,P. Amaudruz,M. Batygov,B. Beltran,J. Bonatt,Mark Guy Boulay,B. Broerman,J. F. Bueno,A. Butcher,Bei Cai,M. L. Chen,R. Chouinard,B. T. Cleveland,K. Dering,J. DiGioseffo,F. Duncan,T. Flower,R. Ford,P. Giampa,P. Gorel,K. Graham,Darren Grant,E. Guliyev,A. L. Hallin,M. Hamstra,P. J. Harvey,C. J. Jillings,I. Lawson,O. Li,P. Liimatainen,P. Majewski,A. B. McDonald,T. McElroy,K. McFarlane,Jocelyn Monroe,A. Muir,C. Nantais,C. Ng,A. J. Noble,C. Ouellet,K. Palladino,P. Pasuthip,S. J. M. Peeters,T. Pollmann,W. Rau,F. Retiere,N. Seeburn,K. Singhrao,P. Skensved,B. Smith,T. Sonley,J. Tang,E. Vázquez-Jáuregui,Laurelle Maria Veloce,J. Walding,Martin Ward +55 more
TL;DR: The DEAP-3600 project as discussed by the authors is a single-phase detector that searches for dark matter particle interactions within a 1000-kg fiducial mass target of liquid argon.
Journal ArticleDOI
A search for astrophysical burst signals at the Sudbury Neutrino Observatory
B. Aharmim,S. N. Ahmed,A. E. Anthony,N. Barros,E. W. Beier,Alain Bellerive,B. Beltran,M. Bergevin,M. Bergevin,S. D. Biller,K. Boudjemline,K. Boudjemline,Mark Guy Boulay,Bei Cai,Yuen-Dat Chan,D. Chauhan,Min Chen,B. T. Cleveland,G. A. Cox,X. Dai,X. Dai,X. Dai,H. Deng,J. A. Detwiler,M. DiMarco,Miriam Diamond,P. J. Doe,G. Doucas,P.-L. Drouin,F. A. Duncan,Monica Dunford,E. D. Earle,Steven Elliott,Steven Elliott,Hal Evans,G. T. Ewan,J. Farine,J. Farine,H. Fergani,F. Fleurot,R. J. Ford,Joseph A. Formaggio,Joseph A. Formaggio,N. Gagnon,J. Tm. Goon,K. Graham,K. Graham,E. Guillian,S. Habib,R. L. Hahn,A. L. Hallin,E. D. Hallman,P. J. Harvey,R. Hazama,W. J. Heintzelman,J. Heise,J. Heise,J. Heise,R. L. Helmer,Andrew Hime,C. Howard,M. Huang,M. Huang,P. Jagam,B. Jamieson,N. A. Jelley,M. Jerkins,K. J. Keeter,Joshua R. Klein,Joshua R. Klein,L. L. Kormos,M. Kos,C. Kraus,C. Kraus,C. B. Krauss,A. Krueger,T. Kutter,Christopher C. M. Kyba,R. Lange,J. Law,I. T. Lawson,K. T. Lesko,J. R. Leslie,I. Levine,J. C. Loach,J. C. Loach,R. MacLellan,S. Majerus,H. B. Mak,J. Maneira,R. D. Martin,R. D. Martin,N. McCauley,N. McCauley,A. B. McDonald,S. McGee,M. L. Miller,Benjamin Monreal,Jocelyn Monroe,Bernie G. Nickel,A. J. Noble,H. M. O'Keeffe,N. S. Oblath,N. S. Oblath,R.W. Ollerhead,G. D. Orebi Gann,G. D. Orebi Gann,S. M. Oser,R. A. Ott,S. J. M. Peeters,A. W. P. Poon,G. Prior,S. D. Reitzner,Keith Rielage,Keith Rielage,B. C. Robertson,R. G. H. Robertson,M. H. Schwendener,J. A. Secrest,S. R. Seibert,S. R. Seibert,S. R. Seibert,O. Simard,J. J. Simpson,David A. Sinclair,David A. Sinclair,P. Skensved,T. J. Sonley,L. C. Stonehill,L. C. Stonehill,G. Tešić,N. Tolich,T. Tsui,R. Van Berg,B.A. VanDevender,C. J. Virtue,B. L. Wall,D. Waller,H. Wan Chan Tseung,H. Wan Chan Tseung,D. L. Wark,Peter Watson,J. Wendland,N. West,J. F. Wilkerson,J. R. Wilson,J. M. Wouters,A. Wright,Minfang Yeh,F. Zhang,Kai Zuber +150 more
TL;DR: In this article, the Sudbury Neutrino Observatory (SNO) has confirmed the standard solar model and neutrino oscillations through the observation of neutrinos from the solar core.
Posted Content
Mechanical Ventilator Milano (MVM): A Novel Mechanical Ventilator Designed for Mass Scale Production in Response to the COVID-19 Pandemics
C. Galbiati,A. Abba,P. Agnes,Pierre-Andre Amaudruz,M. Arba,F. Ardellier-Desages,C. Badia,G. Batignani,G. Bellani,G. Bianchi,D. Bishop,V. Bocci,W. Bonivento,B. Bottino,M. Bouchard,S. Brice,G. Buccino,S. Bussino,A. Caminata,A. Capra,M. Caravati,M. Carlini,L. Carrozzi,J. M. Cela,B. Celano,C. Charette,S. Coelli,M. Constable,V. Cocco,Gabriele Croci,S. Cudmore,A. Dal Molin,S. D'Auria,G. D'Avenio,J. DeRuiter,S. De Cecco,L. De Lauretis,M. Del Tutto,A. Devoto,Tito Dinon,E. Druszkiewicz,A. Fabbri,F. Ferroni,G. Fiorillo,R. Ford,G. Foti,D. Franco,F. Gabriele,P. Garcia Abia,L. S. Giarratana,J. Givoletti,Mi. Givoletti,Giuseppe Gorini,E. Gramellini,G. Grosso,F. Guescini,E. Guetre,T. Hadden,J. Hall,A. Heavey,G. Hersak,Nigel Hessey,An. Ianni,C. Ienzi,V. Ippolito,C. L. Kendziora,M. King,A. Kittmer,I. Kochanek,R. Kruecken,M. La Commara,G. Leblond,X. Li,C. Lim,T. Lindner,T. Lombardi,T. Long,P. Lu,G. A. Lukhanin,G. Magni,R. Maharaj,Matteo Malosio,C. Mapelli,P. Maqueo,P. Margetak,S. M. Mari,L. Martin,N. Massacret,A. B. McDonald,D. Minuzzo,T. A. Mohayai,L. Molinari Tosatti,Claudio Moretti,A. Muraro,Federico Nati,A. J. Noble,A. Norrick,K. Olchanski,I. Palumbo,R. Paoletti,N. Paoli,C. Pearson,C. Pellegrino,V. Pesudo,A. Pocar,M. Pontesilli,R. Pordes,S. Pordes,Alessio Prini,O. Putignano,J. L. Raaf,M. Razeti,A. Razeto,D. Reed,A. L. Renshaw,M. Rescigno,F. Retiere,L. P. Rignanese,J. Rode,L. J. Romualdez,R. Santorelli,D. Sablone,E. Scapparone,T. Schaubel,B. Shaw,A. S. Slutsky,B. Smith,N. J. T. Smith,P. Spagnolo,F. Spinella,A. Stenzler,A. Steri,L. Stiaccini,C. Stoughton,P. Stringari,M. Tardocchi,R. Tartaglia,G. Testera,C. Tintori,A. Tonazzo,J. Tseng,E. Viscione,F. Vivaldi,M. Wada,H. Wang,S. Westerdale,S. Yue,A. Zardoni +147 more
TL;DR: The conceptual design of the MVM is disseminated broadly and to solicit feed- back from the scientific and medical community to speed the process of review, improvement and possible implementation to compensate for the dramatic shortage of such ventilators in many countries.