C
Caroline Poulsen
Researcher at Rutherford Appleton Laboratory
Publications - 78
Citations - 3266
Caroline Poulsen is an academic researcher from Rutherford Appleton Laboratory. The author has contributed to research in topics: AATSR & Cloud computing. The author has an hindex of 30, co-authored 76 publications receiving 2856 citations. Previous affiliations of Caroline Poulsen include Monash University & University of Melbourne.
Papers
More filters
Journal ArticleDOI
Assessment of Global Cloud Datasets from Satellites: Project and Database Initiated by the GEWEX Radiation Panel
Claudia J. Stubenrauch,William B. Rossow,Stefan Kinne,Steven A. Ackerman,G. Cesana,Hélène Chepfer,L. Di Girolamo,Brian Getzewich,A. Guignard,Andrew K. Heidinger,B. C. Maddux,W. P. Menzel,Patrick Minnis,C. Pearl,Steven Platnick,Caroline Poulsen,Jerome Riedi,S. Sun-Mack,Andi Walther,Dave Winker,S. Zeng,G. Zhao +21 more
TL;DR: The Global Energy and Water Cycle Experiment (GEWEX) Cloud Assessment as discussed by the authors provides the first coordinated intercomparison of publicly available, standard global cloud products (gridded monthly statistics) retrieved from measurements of multispectral imagers (some with multiangle view and polarization capabilities).
Journal ArticleDOI
Search for nu(mu) ---> nu(e) oscillations in the NOMAD experiment
P. Astier,D. Autiero,A. Baldisseri,M. Baldo-Ceolin,M. Banner,G. Bassompierre,K. Benslama,Nathalie Besson,I. Bird,I. Bird,Barry Blumenfeld,F. Bobisut,J. Bouchez,S. Boyd,Antonio Bueno,Antonio Bueno,S.A. Bunyatov,L. Camilleri,Alessandro Cardini,P.W. Cattaneo,Vincenzo Cavasinni,A. Cervera-Villanueva,A. Cervera-Villanueva,R. Challis,Artem Chukanov,G. Collazuol,G. Conforto,G. Conforto,C. Conta,M. Contalbrigo,R. Cousins,D. Daniels,H. Degaudenzi,T. Del Prete,A. De Santo,A. De Santo,T. Dignan,L. Di Lella,E. do Couto e Silva,J. Dumarchez,Malcolm Ellis,G. J. Feldman,Roberto Ferrari,Didier Ferrere,V. Flaminio,Marco Fraternali,J.M. Gaillard,E. Gangler,E. Gangler,Achim Geiser,Achim Geiser,D. Geppert,D. Gibin,Sergei Gninenko,Sergei Gninenko,A. Godley,J.J. Gómez-Cadenas,J.J. Gómez-Cadenas,J. Gosset,C. Göbling,M. Gouanère,A. Grant,Giacomo Graziani,A. Guglielmi,Caren Hagner,J. A. Hernando,D. Hubbard,P. Hurst,N. Hyett,E. Iacopini,C. Joseph,F. Juget,N. Kent,M. Kirsanov,O. Klimov,J. Kokkonen,A. Kovzelev,A. Krasnoperov,A. Krasnoperov,D. Kustov,Stefano Lacaprara,C. Lachaud,B. Lakić,A. Lanza,L. La Rotonda,Marco Laveder,A. Letessier-Selvon,J. M. Levy,L. Linssen,Ante Ljubičić,J. Long,A. Lupi,A. Marchionni,F. Martelli,X. Méchain,J.-P. Mendiburu,J-P. Meyer,M. Mezzetto,S.R. Mishra,S.R. Mishra,G. F. Moorhead,Dmitry V. Naumov,P. Nédélec,Yu. Nefedov,C. Nguyen-Mau,Domizia Orestano,Fr Pastore,L. S. Peak,E. Pennacchio,H. Pessard,R. Petti,A. Placci,G. Polesello,D. Pollmann,A. Polyarush,B. A. Popov,B. A. Popov,Caroline Poulsen,Luca Rebuffi,Roberto Renò,J. Rico,P. Riemann,Chiara Roda,Chiara Roda,André Rubbia,André Rubbia,F. Salvatore,K. Schahmaneche,B. Schmidt,B. Schmidt,T. Schmidt,A. Sconza,M. E. Sevior,D. Sillou,F. J. P. Soler,F. J. P. Soler,G. Sozzi,D. Steele,D. Steele,U. Stiegler,Mario Stipčević,Th. Stolarczyk,M. Tareb-Reyes,G. N. Taylor,V. Tereshchenko,A. N. Toropin,A. M. Touchard,S.N. Tovey,S.N. Tovey,M. T. Tran,E. Tsesmelis,J. Ulrichs,L. Vacavant,M. Valdata-Nappi,M. Valdata-Nappi,Vyacheslav Valuev,Vyacheslav Valuev,F. Vannucci,Kevin Varvell,M. Veltri,Valerio Vercesi,G. Vidal-Sitjes,J.-M. Vieira,T. Vinogradova,F.V. Weber,F.V. Weber,T. Weisse,Fergus Wilson,L.J. Winton,Bruce Yabsley,H. Zaccone,Kai Zuber,P. Zuccon +172 more
TL;DR: In this paper, the results of a search for vμ → v e oscillations in the NOMAD experiment at CERN were presented and the 90% confidence limits obtained are Δm2 < 0.4 eV 2 for maximal mixing and sin2(2θ) < 1.4 × 10-3 for large Δm 2.
Journal ArticleDOI
The NOMAD experiment at the CERN SPS
J. Altegoer,M. Anfreville,C. Angelini,P. Astier,M. Authier,D. Autiero,A. Baldisseri,M. Baldo-Ceolin,G. Ballocchi,M. Banner,S. Basa,G. Bassompierre,K. Benslama,I. Bird,Barry Blumenfeld,F. Bobisut,J. Bouchez,S. B. Boyd,Antonio Bueno,S.A. Bunyatov,L. Camilleri,Alessandro Cardini,A. Castera,P.W. Cattaneo,Vincenzo Cavasinni,O. Clou,G. Conforto,C. Conta,R. Cousins,A. De Santo,T. Del Prete,L. Di Lella,T. Dignan,E Silva E. Do Couto,I.J. Donnelly,I.J. Donnelly,J. Dumarchez,L. Dumps,C. Engster,T. Fazio,G. J. Feldman,Roberto Ferrari,D. Ferrre,V. Flaminio,Marco Fraternali,J.M. Gaillard,P. Galumian,E. Gangler,Achim Geiser,D. Geppert,D. Gibin,S. N. Gninenko,J.J. Gómez-Cadenas,J.J. Gómez-Cadenas,J. Gosset,C. Gssling,C. Gssling,M. Gouanère,A. Grant,Giacomo Graziani,D. Kekez,A. Guglielmi,Caren Hagner,J.A. Hernando,D. Hubbard,W. Huta,N. Hyett,E. Iacopini,C. Joseph,M. Kirsanov,B. Khomenko,A. Kovzelev,V.E. Kuznetsov,A. Lanza,L. La Rotonda,Marco Laveder,A. Letessier-Selvon,J. M. Levy,L. Linssen,Ante Ljubičić,J. Long,A. Lupi,E. Manola-Poggioli,A. Marchionni,F. Martelli,J.-P. Mendiburu,J-P. Meyer,M. Mezzetto,S.R. Mishra,G. F. Moorhead,L. Mossuz,P. Nedelec,Yu. Nefedov,C. Mguyen-Mau,Domizia Orestano,J P. Passrieux,F. Pastore,L.S. Peak,E. Pennacchio,J. P. Perroud,H. Pessard,P. Petitpas,R. Petti,A. Placci,H. Plothow-Besch,J. Poinsignon,Giacomo Polesello,D. Pollmann,B. G. Pope,B. A. Popov,Caroline Poulsen,P. Rathouit,G. Renzoni,Chiara Roda,André Rubbia,F. Salvatore,K. Schahmaneche,B. Schmidt,A. Sconza,M. Serrano,M. E. Sevior,D. Sillou,C. Sobczynski,P. Soler,G. Sozzi,D. Steele,M. Steininger,Mario Stipčević,T. Stolarczyk,G. N. Taylor,V. Tereschenko,A. N. Toropin,A. M. Touchard,S. N. Tovey,M. T. Tran,E. Tsesmelis,J. Ulrichs,V. Uros,M. Valdata-Nappi,M. Valdata-Nappi,Vyacheslav Valuev,F. Vannucci,Kevin Varvell,Kevin Varvell,Valerio Vercesi,D. Verkindt,J.-M. Vieira,M. K. Vo,S.A. Volkov,F.V. Weber,F.V. Weber,T. Weisse,M. Werlen,P. Wicht,Fergus Wilson,L.J. Winton,Bruce Yabsley,H. Zaccone +157 more
TL;DR: The NOMAD experiment as mentioned in this paper is a short base-line search for νμ − ντ oscillations in the CERN neutrino beam, which enables the reconstruction of individual particles produced in the neutrinos interactions.
Journal ArticleDOI
A study of quasi-elastic muon neutrino and antineutrino scattering in the NOMAD experiment
V. V. Lyubushkin,B. A. Popov,J.J. Kim,L. Camilleri,J. M. Levy,M. Mezzetto,Dmitry V. Naumov,Sergey Alekhin,P. Astier,D. Autiero,A. Baldisseri,M. Baldo-Ceolin,M. Banner,G. Bassompierre,K. Benslama,Nathalie Besson,I. Bird,I. Bird,Barry Blumenfeld,F. Bobisut,J. Bouchez,S. Boyd,Antonio Bueno,Antonio Bueno,S.A. Bunyatov,Alessandro Cardini,P.W. Cattaneo,Vincenzo Cavasinni,A. Cervera-Villanueva,R. Challis,Artem Chukanov,G. Collazuol,G. Conforto,G. Conforto,C. Conta,M. Contalbrigo,R. Cousins,D. Daniels,H. Degaudenzi,T. Del Prete,A. De Santo,A. De Santo,T. Dignan,L. Di Lella,E. do Couto e Silva,J. Dumarchez,Malcolm Ellis,G. J. Feldman,Roberto Ferrari,Didier Ferrere,V. Flaminio,Marco Fraternali,J.M. Gaillard,E. Gangler,E. Gangler,Achim Geiser,Achim Geiser,D. Geppert,D. Gibin,Sergei Gninenko,A. Godley,J.J. Gómez-Cadenas,J. Gosset,Claus Gößling,Michel Gouanère,A. Grant,Giacomo Graziani,A. Guglielmi,Caren Hagner,J. A. Hernando,D. Hubbard,P. Hurst,N. Hyett,E. Iacopini,C. Joseph,Frédéric Juget,N. Kent,Mikhail Kirsanov,O.L. Klimov,J. Kokkonen,A. Kovzelev,Alexey Krasnoperov,Sergey A. Kulagin,D. Kustov,Stefano Lacaprara,C. Lachaud,B. Lakić,A. Lanza,L. La Rotonda,Marco Laveder,A. Letessier-Selvon,L. Linssen,Ante Ljubičić,J. Long,A. Lupi,A. Marchionni,F. Martelli,X. Méchain,J.-P. Mendiburu,J-P. Meyer,S. R. Mishra,G. F. Moorhead,P. Nedelec,Yu. Nefedov,C. Nguyen-Mau,Domizia Orestano,Fr Pastore,L. S. Peak,E. Pennacchio,H. Pessard,R. Petti,A. Placci,Giacomo Polesello,D. Pollmann,A. Polyarush,Caroline Poulsen,Luca Rebuffi,J. Rico,P. Riemann,Chiara Roda,Chiara Roda,André Rubbia,André Rubbia,F. Salvatore,O. Samoylov,K. Schahmaneche,B. Schmidt,B. Schmidt,T. Schmidt,A. Sconza,M.B. Seaton,M. E. Sevior,D. Sillou,F. J. P. Soler,F. J. P. Soler,G. Sozzi,D. Steele,D. Steele,U. Stiegler,Mario Stipčević,Th. Stolarczyk,M. Tareb-Reyes,G. N. Taylor,V. Tereshchenko,Alexander Toropin,A.-M. Touchard,S.N. Tovey,S.N. Tovey,Minh Tâm Tran,E. Tsesmelis,J. Ulrichs,L. Vacavant,M. Valdata-Nappi,Vyacheslav Valuev,F. Vannucci,Kevin Varvell,M. Veltri,Valerio Vercesi,G. Vidal-Sitjes,J.-M. Vieira,T. Vinogradova,F.V. Weber,F.V. Weber,T. Weisse,Fergus Wilson,L.J. Winton,Q. Wu,Bruce Yabsley,H. Zaccone,Kai Zuber,P. Zuccon +170 more
TL;DR: In this article, the axial mass parameter M A was extracted from the measured quasi-elastic neutrino cross section, which is consistent with the AXial mass values recalculated from the antineutrino X 2 shape analysis of the high purity sample of ν μ 2 track events, but has smaller systematic error.
Journal ArticleDOI
Search for heavy neutrinos mixing with tau neutrinos
P. Astier,D. Autiero,A. Baldisseri,M. Baldo-Ceolin,M. Banner,G. Bassompierre,K. Benslama,Nathalie Besson,I. Bird,I. Bird,Barry Blumenfeld,F. Bobisut,J. Bouchez,S. Boyd,Antonio Bueno,Antonio Bueno,S.A. Bunyatov,L. Camilleri,Alessandro Cardini,P.W. Cattaneo,Vincenzo Cavasinni,A. Cervera-Villanueva,A. Cervera-Villanueva,G. Collazuol,G. Conforto,C. Conta,M. Contalbrigo,R. Cousins,D. Daniels,H. Degaudenzi,T. Del Prete,A. De Santo,T. Dignan,L. Di Lella,E. do Couto e Silva,I.J. Donnelly,J. Dumarchez,Malcolm Ellis,T. Fazio,G. J. Feldman,Roberto Ferrari,Didier Ferrere,V. Flaminio,Marco Fraternali,J. M. Gaillard,E. Gangler,E. Gangler,Achim Geiser,Achim Geiser,D. Geppert,D. Gibin,Sergei Gninenko,Sergei Gninenko,A. Godley,M. C. Gonzalez-Garcia,J.J. Gómez-Cadenas,J.J. Gómez-Cadenas,J. Gosset,Claus Gößling,M. Gouanère,A. Grant,Giacomo Graziani,A. Guglielmi,Caren Hagner,J. A. Hernando,D. Hubbard,P. Hurst,N. Hyett,E. Iacopini,C. Joseph,F. Juget,M. Kirsanov,O. Klimov,J. Kokkonen,A. Kovzelev,N.V. Krasnikov,A. Krasnoperov,A. Krasnoperov,Stefano Lacaprara,C. Lachaud,B. Lakić,A. Lanza,L. La Rotonda,Marco Laveder,A. Letessier-Selvon,J.-M. Levy,L. Linssen,Ante Ljubičić,J. Long,A. Lupi,A. Marchionni,F. Martelli,X. Méchain,J.-P. Mendiburu,J-P. Meyer,M. Mezzetto,S.R. Mishra,S.R. Mishra,G. F. Moorhead,Dmitry V. Naumov,P. Nédélec,Yu. Nefedov,C. Nguyen-Mau,Domizia Orestano,Fr Pastore,L. S. Peak,E. Pennacchio,H. Pessard,R. Petti,A. Placci,Giacomo Polesello,D. Pollmann,A. Polyarush,B. A. Popov,B. A. Popov,Caroline Poulsen,P. Rathouit,J. Rico,Chiara Roda,Chiara Roda,André Rubbia,André Rubbia,F. Salvatore,K. Schahmaneche,B. Schmidt,B. Schmidt,G. Segneri,M. E. Sevior,F. J. P. Soler,F. J. P. Soler,G. Sozzi,D. Steele,D. Steele,U. Stiegler,Mario Stipčević,Th. 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,M. Valdata-Nappi,Vyacheslav Valuev,Vyacheslav Valuev,F. Vannucci,Kevin Varvell,M. Veltri,Valerio Vercesi,G. Vidal-Sitjes,G. Vidal-Sitjes,J.-M. Vieira,T. Vinogradova,F.V. Weber,F.V. Weber,T. Weisse,Fergus Wilson,L.J. Winton,Bruce Yabsley,H. Zaccone,Kai Zuber,P. Zuccon +166 more
TL;DR: In this article, an upper bound on the mixing strength between the heavy neutrino and the tau neutrinos in the mass range from 10 to 190 MeV was derived.