C. Andreopoulos
Rutherford Appleton Laboratory
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Publication
Featured researches published by C. Andreopoulos.
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment | 2010
C. Andreopoulos; A. Bell; D. Bhattacharya; F. Cavanna; J. Dobson; S. A. Dytman; H. R. Gallagher; P. Guzowski; R. Hatcher; P. Kehayias; A. Meregaglia; D. Naples; G. F. Pearce; A. Rubbia; M. Whalley; T. Yang
The exploration of the neutrino mixing matrix forms one of the major directions in science. A number of scientific opportunities lie ahead: Over the next decade searches for
arXiv: Instrumentation and Detectors | 2007
T. Abe; H. Aihara; C. Andreopoulos; A. Ankowski; A. Badertscher; G. Battistoni; A. Blondel; J. Bouchez; A. Bross; A. Bueno; L. Camilleri; A. Cazes; A. Cervera-Villanueva; G. De Lellis; F. Di; M. Ellis; A. Ereditato; C. Fukushima; E. Gschwendtner; M. Iwasaki; K. Kaneyuki; Y. Karadzhov; V. Kashikhin; Y. Kawai; M. Komatsu; E. Kozlovskaya; Y. Kudenko; A. Kusaka; H. Kyushima; A. Longhin
{\nu}_{\mu} \rightarrow {\nu}_{e}
European Physical Journal C | 2009
T. Yang; C. Andreopoulos; H. R. Gallagher; K. Hofmann; P. Kehayias
oscillations will dramatically improve our sensitivity to
arXiv: High Energy Physics - Phenomenology | 2015
C. Andreopoulos; C. Barry; Steve Dytman; H. R. Gallagher; T. Golan; R. Hatcher; G. N. Perdue; Julia Yarba
{\theta}_{13}
Physical Review D | 2016
C. Wilkinson; R. Terri; C. Andreopoulos; A. Bercellie; C. Bronner; S. Cartwright; P. de Perio; J. Dobson; K. Duffy; A. P. Furmanski; L. Haegel; Y. Hayato; A. Kaboth; K. Mahn; K. S. McFarland; J. Nowak; A. Redij; P. A. Rodrigues; F. Sanchez; J. Schwehr; P. Sinclair; J. Sobczyk; P. Stamoulis; P. Stowell; R. Tacik; L.F. Thompson; S. Tobayama; M. O. Wascko; J. Żmuda
, potentially opening a window to exploring CP violation in the lepton sector. Precision measurements of
NEUTRINO‐NUCLEUS INTERACTIONS IN THE FEW‐GEV REGION: NuInt07: The 5th International Workshop on Neutrino‐Nucleus Interactions in the Few‐GeV Region | 2007
T. Yang; C. Andreopoulos; H. R. Gallagher; P. Kehayias
{\theta}_{23}
arXiv: High Energy Physics - Phenomenology | 2015
M. Alam; C. Andreopoulos; M.S. Athar; A. Bodek; E. Christy; B. Coopersmith; S. Dennis; S. A. Dytman; H. R. Gallagher; N. Geary; T. Golan; R. Hatcher; K. Hoshina; J. L. Liu; K. B. M. Mahn; C. M. Marshall; J. Morrison; M. Nirkko; J. Nowak; G. N. Perdue; Julia Yarba
from high statistics
Journal of Physics: Conference Series | 2017
C. Andreopoulos; C. Barry; F. Bench; A. Chappell; T. Dealtry; S. Dennis; L. Escudero; R. Jones; N. Grant; M. Roda; D. Sgalaberna; R. Shah
{\nu}_{\mu}
Journal of Instrumentation | 2009
T. Abe; H. Aihara; C. Andreopoulos; A. Ankowski; A. Badertscher; G. Battistoni; A. Blondel; J. Bouchez; A. Bross; A. Bueno; L. Camilleri; J. E. Campagne; A. Cazes; A. Cervera-Villanueva; G. De Lellis; F. Di Capua; M. Ellis; A. Ereditato; L. S. Esposito; C. Fukushima; E. Gschwendtner; J.J. Gomez-Cadenas; M. Iwasaki; K. Kaneyuki; Y. Karadzhov; V. Kashikhin; Y. Kawai; M. Komatsu; E. Kozlovskaya; Y. Kudenko
disappearance studies will shed more light on the neutrino mixing matrix and, possibly, elucidate its relation with the quark mixing matrix. Over a similar time-scale, exploiting matter effects, we will probe the neutrino mass hierarchy. Much of the research program will be carried out with accelerator-made neutrino beams in the few-GeV energy range, the challenging boundary between the non-perturbative and perturbative regimes where our lacking physics descriptions are now being exposed by increasingly precise neutrino data. Advancing our understanding of fundamental neutrino properties, will require building a more complete picture of neutrino interactions and reducing the corresponding systematics to the\break
SIXTH INTERNATIONAL WORKSHOP ON NEUTRINO‐NUCEUS INTERACTIONS IN THE FEW‐GEV REGION (NUINT‐09) | 2009
C. Andreopoulos; H. R. Gallagher; Y. Hayato; J. Sobczyk; C. W. Walter; Sam Zeller
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