C
C. D. Moore
Researcher at Fermilab
Publications - 190
Citations - 12954
C. D. Moore is an academic researcher from Fermilab. The author has contributed to research in topics: Neutrino & Neutrino oscillation. The author has an hindex of 57, co-authored 169 publications receiving 11624 citations.
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Journal ArticleDOI
Improved search for muon-neutrino to electron-neutrino oscillations in MINOS
P. Adamson,D. J. Auty,D. S. Ayres,C. Backhouse,G.D. Barr,M. Betancourt,M. Bishai,Andrew Blake,G. J. Bock,D. J. Boehnlein,D. Bogert,S. V. Cao,S. Cavanaugh,D. Cherdack,S. Childress,Joao A B Coelho,L. Corwin,D. Cronin-Hennessy,I. Z. Danko,J. K. de Jong,N. E. Devenish,M. V. Diwan,M. Dorman,Carlos Escobar,J. J. Evans,E. Falk,G. J. Feldman,M. V. Frohne,H. R. Gallagher,R. A. Gomes,Maury Goodman,P. Gouffon,N. Graf,R. Gran,K. Grzelak,Alec Habig,J. Hartnell,R. Hatcher,A. Himmel,A. Holin,Xian-Rong Huang,J. Hylen,G. M. Irwin,Z. Isvan,D. E. Jaffe,C. James,D. A. Jensen,T. Kafka,S. M. S. Kasahara,G. Koizumi,Sacha E Kopp,M. Kordosky,A. E. Kreymer,Karol Lang,G. Lefeuvre,P. J. Litchfield,L. Loiacono,P. Lucas,W. A. Mann,Marvin L Marshak,M. Mathis,N. Mayer,A. M. McGowan,R. Mehdiyev,J. R. Meier,M. D. Messier,D. G. Michael,W. H. Miller,S. R. Mishra,John C. Mitchell,C. D. Moore,L. Mualem,S. L. Mufson,J. A. Musser,D. Naples,J. K. Nelson,Harvey B Newman,R. J. Nichol,J. A. Nowak,Juan Pedro Ochoa-Ricoux,W. P. Oliver,M. Orchanian,J. M. Paley,R. B. Patterson,Gregory J Pawloski,G. F. Pearce,S. Phan-Budd,R. K. Plunkett,X. Qiu,J. Ratchford,B. Rebel,C. Rosenfeld,H. A. Rubin,M. C. Sanchez,J. Schneps,A. Schreckenberger,P. Schreiner,P. Shanahan,Rohit Sharma,A. Sousa,N. Tagg,R. L. Talaga,J. C. Thomas,M. A. Thomson,R. Toner,D. Torretta,G. Tzanakos,J. Urheim,P. Vahle,B. Viren,J. Walding,A. C. Weber,R. C. Webb,C. White,L. H. Whitehead,Stanley G. Wojcicki,T. Yang,R. Zwaska +117 more
TL;DR: The results of a search for ν(e) appearance in a ν (μ) beam in the MINOS long-baseline neutrino experiment find that 2 sin(2) (θ(23))sin(2)(2θ (13))<0.12 at 90% confidence level for δ = 0 and the normal (inverted) neutrinos mass hierarchy.
Journal ArticleDOI
Observation of muon neutrino disappearance with the MINOS detectors in the NuMI neutrino beam
D. G. Michael,P. Adamson,P. Adamson,P. Adamson,T. Alexopoulos,W.W.M. Allison,G. J. Alner,Kevin Anderson,C. Andreopoulos,M. P. Andrews,R. Andrews,K. E. Arms,R. Armstrong,C. Arroyo,D. J. Auty,S. Avvakumov,D. S. Ayres,B. Baller,B. C. Barish,M. A. Barker,Peter D. Barnes,G.D. Barr,William L. Barrett,E. Beall,E. Beall,B. R. Becker,A. Belias,T. Bergfeld,R. H. Bernstein,D. Bhattacharya,M. Bishai,Andrew Blake,V. Bocean,B. Bock,G. J. Bock,J. Boehm,D. J. Boehnlein,D. Bogert,P. M. Border,C. R. Bower,S. Boyd,E. Buckley-Geer,C. Bungau,A. Byon-Wagner,Anatael Cabrera,John Derek Chapman,Thomas R. Chase,D. Cherdack,S. Chernichenko,S. Childress,B. C. Choudhary,B. C. Choudhary,J. H. Cobb,J. D. Cossairt,H. Courant,D. Crane,A. J. Culling,J. W. Dawson,J. K. de Jong,D. M. DeMuth,A. De Santo,M. Dierckxsens,M. V. Diwan,M. Dorman,M. Dorman,G. Drake,D. Drakoulakos,R. Ducar,T. Durkin,A. R. Erwin,Carlos Escobar,J. J. Evans,O. Fackler,E. Falk Harris,G. J. Feldman,N. Felt,T. H. Fields,R. Ford,M. V. Frohne,H. R. Gallagher,M. Gebhard,G. A. Giurgiu,A. Godley,J. Gogos,M. C. Goodman,Yu. A. Gornushkin,P. Gouffon,R. Gran,E. Grashorn,N. Grossman,J. J. Grudzinski,K. Grzelak,V. J. Guarino,Alec Habig,R. Halsall,J. Hanson,D. A. Harris,Philip Harris,J. Hartnell,J. Hartnell,E. P. Hartouni,R. Hatcher,Ken Heller,N. Hill,Y. Ho,A. Holin,C. Howcroft,C. Howcroft,J. Hylen,M. Ignatenko,D. Indurthy,G. M. Irwin,M. Ishitsuka,D. E. Jaffe,C. James,L. Jenner,D. A. Jensen,T. Joffe-Minor,T. Kafka,H. J. Kang,S. M S Kasahara,J. Kilmer,Hyun-Chul Kim,M. S. Kim,G. Koizumi,Sacha E Kopp,M. Kordosky,M. Kordosky,D. J. Koskinen,D. J. Koskinen,M. Kostin,S. K. Kotelnikov,D. Krakauer,A. E. Kreymer,S. Kumaratunga,A. S. Ladran,Karol Lang,C. Laughton,A. Lebedev,R. Lee,Weonjong Lee,M. Libkind,Ji-Yong Liu,P. J. Litchfield,P. J. Litchfield,R. P. Litchfield,N. P. Longley,P. Lucas,W. Luebke,S. Madani,E. Maher,V. Makeev,W. A. Mann,A. Marchionni,A. D. Marino,Marvin L Marshak,John Marshall,N. Mayer,J. McDonald,A. M. McGowan,A. M. McGowan,J. R. Meier,G. I. Merzon,M. D. Messier,M. D. Messier,R. H. Milburn,John Miller,John Miller,Warner A. Miller,S.R. Mishra,S.R. Mishra,A. Mislivec,P. S. Miyagawa,C. D. Moore,Jorge G. Morfin,R. Morse,L. Mualem,S. L. Mufson,S. Murgia,M. J. Murtagh,J. A. Musser,D. Naples,C. Nelson,J. K. Nelson,J. K. Nelson,J. K. Nelson,Harvey B Newman,F. A. Nezrick,R. J. Nichol,T. C. Nicholls,Juan Pedro Ochoa-Ricoux,J. Oliver,W. P. Oliver,V.A. Onuchin,T. Osiecki,R. Ospanov,J. M. Paley,V. Paolone,A. Para,T. Patzak,Ž Pavlović,G. F. Pearce,N. Pearson,C. W. Peck,Carole C. Perry,E. A. Peterson,D. A. Petyt,D. A. Petyt,D. A. Petyt,H. Ping,R. Piteira,R. Pittam,A. Pla-Dalmau,R. K. Plunkett,L. E. Price,M. Proga,D. Pushka,D. Rahman,R. A. Rameika,T. M. Raufer,A. L. Read,B. Rebel,B. Rebel,J. Reichenbacher,D. E. Reyna,C. Rosenfeld,H. A. Rubin,K. Ruddick,V. A. Ryabov,Ruben Saakyan,Mcd Sanchez,Mcd Sanchez,Niki Saoulidou,J. Schneps,Paul Schoessow,P. Schreiner,Reinhard Schwienhorst,V. K. Semenov,S. M. Seun,P. Shanahan,P.D. Shield,W. Smart,V. Smirnitsky,Caleb Smith,Caleb Smith,Caleb Smith,P. N. Smith,A. Sousa,A. Sousa,B. Speakman,P. Stamoulis,A. Stefanik,P. Sullivan,J. M. Swan,P. A. Symes,N. Tagg,N. Tagg,R. L. Talaga,Alexander Terekhov,E. Tetteh-Lartey,Juergen Thomas,Juergen Thomas,Juergen Thomas,J. A. Thompson,M. A. Thomson,J. L. Thron,G. Tinti,R. Trendler,J. Trevor,I. Trostin,V. A. Tsarev,G. Tzanakos,J. Urheim,J. Urheim,P. Vahle,P. Vahle,M. Vakili,K. Vaziri,C. Velissaris,V. Verebryusov,B. Viren,L. Wai,C. P. Ward,D. R. Ward,M. Watabe,A. C. Weber,A. C. Weber,R. C. Webb,A. A. Wehmann,N. West,C. White,Randall White,Stanley G. Wojcicki,Douglas Wright,Q. K. Wu,W. G. Yan,T. Yang,Francisco Yumiceva,J. C. Yun,H. Zheng,M. Zois,R. Zwaska,R. Zwaska +302 more
TL;DR: In this article, the MINOS experiment reported results from its initial exposure to neutrinos from the Fermilab NuMI beam, and the rate and energy spectra of charged current muon neutrino interactions are compared in two detectors located along the beam axis at distances of 1 km and 735 km.
The MiniBooNE Collaboration
Alexis A. Aguilar-Arevalo,C. E. Anderson,L. Bartoszek,A. O. Bazarko,S. J. Brice,B. C. Brown,L. Bugel,Jun Cao,L. Coney,Janet Conrad,D. C. Cox,A. Curioni,Zelimir Djurcic,D. A. Finley,R. Ford,F. G. Garcia,G. T. Garvey,C. Green,T. L. Hart,E. Hawker,R. L. Imlay,R. A. Johnson,G. Karagiorgi,P. H. Kasper,Teppei Katori,I. Kourbanis,S. Koutsoliotas,E. M. Laird,S. K. Linden,Y. L. Liu,W. C. Louis,Kendall Mahn,W. Marsh,P. Martin,G. McGregor,W. Metcalf,P. D. Meyers,F. Mills,G. B. Mills,Jocelyn Monroe,C. D. Moore,R. H. Nelson,V. T. Nguyen,P. Nienaber,R. B. Patterson,D. Perevalov,C. C. Polly,E.J. Prebys,J. L. Raaf,H. Ray,B. P. Roe,A. D. Russell,V. D. Sandberg,W. Sands,R. Schirato,G. Schofield,D.W. Schmitz,M. H. Shaevitz,F. C. Shoemaker,David Smith,M. Soderberg,M. Sorel,Panagiotis Spentzouris,I. Stancu,R. J. Stefanski,M. Sung,H. A. Tanaka,Rex Tayloe,M. Tzanov,R. Van,M. O. Wascko,D. H. White,M. J. Wilking,H. J. Yang,G. P. Zeller,E. D. Zimmerman +75 more
Journal ArticleDOI
Improved Search for $\bar \nu_\mu \rightarrow \bar \nu_e$ Oscillations in the MiniBooNE Experiment
Alexis A. Aguilar-Arevalo,B. C. Brown,L. Bugel,G. Cheng,E. Church,Janet Conrad,R. Dharmapalan,Zelimir Djurcic,D. A. Finley,R. Ford,F. G. Garcia,G. T. Garvey,J. Grange,W. Huelsnitz,C. M. Ignarra,R. Imlay,R. A. Johnson,G. Karagiorgi,Teppei Katori,T. Kobilarcik,W. C. Louis,C. Mariani,W. Marsh,G. B. Mills,J. Mirabal,C. D. Moore,J. Mousseau,P. Nienaber,B. Osmanov,Z. Pavlovic,D. Perevalov,C. C. Polly,H. Ray,B. P. Roe,A. D. Russell,M. H. Shaevitz,J. Spitz,I. Stancu,Rex Tayloe,R. G. Van de Water,D. H. White,D. A. Wickremasinghe,G. P. Zeller,E. D. Zimmerman +43 more
TL;DR: In this article, the MiniBooNE experiment at Fermilab reports results from an analysis of ν¯e appearance data from 11.27×10µµ protons on target in the antineutrino mode, an increase of approximately a factor of 2 over the previously reported results.
Journal ArticleDOI
Significant Excess of ElectronLike Events in the MiniBooNE Short-Baseline Neutrino Experiment
Alexis A. Aguilar-Arevalo,B. C. Brown,L. Bugel,G. Cheng,Janet Conrad,R. L. Cooper,R. L. Cooper,R. Dharmapalan,R. Dharmapalan,Alejandro Diaz,Zelimir Djurcic,D. A. Finley,R. Ford,F. G. Garcia,G. T. Garvey,J. Grange,E. C. Huang,W. Huelsnitz,C. M. Ignarra,R. A. Johnson,G. Karagiorgi,Teppei Katori,Teppei Katori,T. Kobilarcik,W. C. Louis,C. Mariani,W. Marsh,G. B. Mills,J. Mirabal,Jocelyn Monroe,C. D. Moore,J. Mousseau,P. Nienaber,J. A. Nowak,B. Osmanov,Z. Pavlovic,D. Perevalov,H. Ray,Byron P. Roe,A. D. Russell,M. H. Shaevitz,J. Spitz,I. Stancu,R. Tayloe,R. T. Thornton,M. Tzanov,M. Tzanov,R. G. Van de Water,D. H. White,D. A. Wickremasinghe,E. D. Zimmerman +50 more
TL;DR: The MiniBooNE data are consistent in energy and magnitude with the excess of events reported by the Liquid Scintillator Neutrino Detector (LSND), and the significance of the combined LSND and Mini BooNE excesses is 6.0σ.