A
A. Schreckenberger
Researcher at University of Texas at Austin
Publications - 13
Citations - 1121
A. Schreckenberger is an academic researcher from University of Texas at Austin. The author has contributed to research in topics: MINOS & Muon. The author has an hindex of 9, co-authored 13 publications receiving 834 citations. Previous affiliations of A. Schreckenberger include University of Minnesota & University of Illinois at Urbana–Champaign.
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Journal ArticleDOI
Combined analysis of νμ disappearance and νμ → νe appearance in MINOS using accelerator and atmospheric neutrinos
P. Adamson,I. Anghel,A. Aurisano,G.D. Barr,M. Bishai,Andrew Blake,G. J. Bock,D. Bogert,S. V. Cao,C. M. Castromonte,D. Cherdack,S. Childress,Joao A B Coelho,L. Corwin,D. Cronin-Hennessy,J. K. De Jong,A. V. Devan,N. E. Devenish,M. V. Diwan,Carlos Escobar,J. J. Evans,E. Falk,G. J. Feldman,M. V. Frohne,H. R. Gallagher,R. A. Gomes,M. C. Goodman,P. Gouffon,N. Graf,R. Gran,K. Grzelak,Alec Habig,S. R. Hahn,J. Hartnell,R. Hatcher,A. Himmel,A. Holin,Junwei Huang,J. Hylen,G. M. Irwin,Z. Isvan,C. James,D. A. Jensen,T. Kafka,S. M. S. Kasahara,G. Koizumi,M. Kordosky,A. E. Kreymer,Karol Lang,P. J. Litchfield,P. Lucas,W. A. Mann,Marvin L Marshak,N. Mayer,C. L. McGivern,M. M. Medeiros,R. Mehdiyev,J. R. Meier,M. D. Messier,D. G. Michael,Warner A. Miller,S. R. Mishra,S. Moed Sher,C. D. Moore,L. Mualem,J. A. Musser,D. Naples,J. K. Nelson,Harvey B Newman,R. J. Nichol,J. A. Nowak,J. O'Connor,M. Orchanian,R. B. Pahlka,J. M. Paley,R. B. Patterson,Gregory J Pawloski,A. Perch,S. Phan-Budd,R. K. Plunkett,N. Poonthottathil,X. Qiu,A. Radovic,B. Rebel,C. Rosenfeld,H. A. Rubin,M. C. Sanchez,J. Schneps,A. Schreckenberger,P. Schreiner,Rakesh Sharma,A. Sousa,N. Tagg,R. L. Talaga,Juergen Thomas,M. A. Thomson,X. Tian,A. Timmons,S. C. Tognini,R. Toner,D. Torretta,G. Tzanakos,J. Urheim,P. Vahle,B. Viren,A. C. Weber,R. C. Webb,Christopher G. White,L. H. Whitehead,Leigh H. Whitehead,Stanley G. Wojcicki,R. Zwaska +111 more
TL;DR: A new analysis of neutrino oscillations in MINOS using the complete set of accelerator and atmospheric data using the three-flavor formalism and constrain δ(CP), the θ(23} octant degeneracy and the mass hierarchy is reported.
Journal ArticleDOI
The NuMI neutrino beam
P. Adamson,Kevin Anderson,M. P. Andrews,R. Andrews,I. Anghel,I. Anghel,D. Augustine,A. Aurisano,S. Avvakumov,D. S. Ayres,B. Baller,B. C. Barish,G.D. Barr,William L. Barrett,R. H. Bernstein,J. Biggs,M. Bishai,Andrew Blake,V. Bocean,G. J. Bock,D. J. Boehnlein,D. Bogert,K. Bourkland,S. V. Cao,C. M. Castromonte,S. Childress,Brajesh C Choudhary,Joao A B Coelho,Joao A B Coelho,J.H. Cobb,L. Corwin,L. Corwin,D. Crane,J. P. Cravens,D. Cronin-Hennessy,R. Ducar,J. K. De Jong,A. V. Devan,N. E. Devenish,M. V. Diwan,A. R. Erwin,Carlos Escobar,J. J. Evans,E. Falk,G. J. Feldman,T. H. Fields,R. Ford,M. V. Frohne,H. R. Gallagher,V. Garkusha,R. A. Gomes,Maury Goodman,P. Gouffon,N. Graf,R. Gran,N. Grossman,K. Grzelak,Alec Habig,S. R. Hahn,D. J. Harding,D. A. Harris,Philip Harris,J. Hartnell,R. Hatcher,S. Hays,Ken Heller,A. Holin,Junwei Huang,J. Hylen,Ahmed Ibrahim,D. Indurthy,G. M. Irwin,Z. Isvan,Z. Isvan,D. E. Jaffe,C. James,D. A. Jensen,J. Johnstone,T. Kafka,S. M. S. Kasahara,G. Koizumi,Sacha E Kopp,M. Kordosky,A. E. Kreymer,Karol Lang,C. Laughton,G. Lefeuvre,P. J. Litchfield,P. J. Litchfield,L. Loiacono,P. Lucas,W. A. Mann,A. Marchionni,Marvin L Marshak,N. Mayer,N. Mayer,C. L. McGivern,M. M. Medeiros,R. Mehdiyev,J. R. Meier,M. D. Messier,M. D. Messier,D. Michael,R. H. Milburn,John Miller,W. H. Miller,S. R. Mishra,S. Moed Sher,C. D. Moore,Jorge G. Morfin,L. Mualem,S. L. Mufson,S. Murgia,M. J. Murtagh,J. A. Musser,D. Naples,J. K. Nelson,Harvey B Newman,R. J. Nichol,J. A. Nowak,J. O׳Connor,W. P. Oliver,M. Olsen,M. Orchanian,Scott Osprey,R. B. Pahlka,J. M. Paley,A. Para,R. B. Patterson,T. Patzak,Ž Pavlović,Gregory J Pawloski,Gregory J Pawloski,A. Perch,E. A. Peterson,David Petyt,M. M. Pfützner,S. Phan-Budd,R. K. Plunkett,N. Poonthottathil,P. Prieto,D. Pushka,X. Qiu,A. Radovic,R. A. Rameika,J. Ratchford,B. Rebel,R. Reilly,C. Rosenfeld,H. A. Rubin,K. Ruddick,M. C. Sanchez,M. C. Sanchez,Niki Saoulidou,L. Sauer,J. Schneps,D. Schoo,A. Schreckenberger,A. Schreckenberger,P. Schreiner,P. Shanahan,Rakesh Sharma,W. Smart,Caleb Smith,A. Sousa,A. Sousa,A. Stefanik,N. Tagg,R. L. Talaga,G. Tassotto,Juergen Thomas,J. A. Thompson,M. A. Thomson,X. Tian,A. Timmons,D. Tinsley,S. C. Tognini,R. Toner,D. Torretta,I. Trostin,G. Tzanakos,J. Urheim,P. Vahle,K. Vaziri,E. Villegas,B. Viren,G. Vogel,R. Webber,A. C. Weber,A. C. Weber,R. C. Webb,A. A. Wehmann,Christopher G. White,L. H. Whitehead,L. H. Whitehead,Leigh H. Whitehead,Stanley G. Wojcicki,M.L. Wong-Squires,T. Yang,Francisco Yumiceva,V. Zarucheisky,R. Zwaska +201 more
TL;DR: In this paper, the hardware and operations of the Neutrinos at the main Injector (NuMI) beam at Fermilab are described. But the most important design details of individual components are not discussed.
Journal ArticleDOI
Search for Sterile Neutrinos in MINOS and MINOS+ Using a Two-Detector Fit
P. Adamson,I. Anghel,I. Anghel,A. Aurisano,G.D. Barr,M. Bishai,Andrew Blake,Andrew Blake,G. J. Bock,D. Bogert,S. V. Cao,T. J. Carroll,C. M. Castromonte,R. Chen,S. Childress,Joao A B Coelho,L. Corwin,D. Cronin-Hennessy,J. K. De Jong,S. De Rijck,A. V. Devan,N. E. Devenish,M. V. Diwan,Carlos Escobar,J. J. Evans,E. Falk,G. J. Feldman,W. Flanagan,M. V. Frohne,M. Y. Gabrielyan,H. R. Gallagher,S. Germani,R. A. Gomes,Maury Goodman,P. Gouffon,N. Graf,R. Gran,K. Grzelak,Alec Habig,S. R. Hahn,J. Hartnell,R. Hatcher,A. Holin,Junwei Huang,J. Hylen,G. M. Irwin,Z. Isvan,C. James,D. A. Jensen,T. Kafka,S. M. S. Kasahara,L. W. Koerner,G. Koizumi,M. Kordosky,A. E. Kreymer,Karol Lang,P. J. Litchfield,P. J. Litchfield,P. Lucas,W. A. Mann,Marvin L Marshak,N. Mayer,C. L. McGivern,M. M. Medeiros,R. Mehdiyev,J. R. Meier,M. D. Messier,W. H. Miller,S. R. Mishra,S. Moed Sher,C. D. Moore,L. Mualem,J. A. Musser,D. Naples,J. K. Nelson,Harvey B Newman,R. J. Nichol,J. A. Nowak,J. O'Connor,M. Orchanian,R. B. Pahlka,J. M. Paley,R. B. Patterson,Gregory J Pawloski,A. Perch,M. M. Pfützner,D. D. Phan,S. Phan-Budd,R. K. Plunkett,N. Poonthottathil,X. Qiu,A. Radovic,B. Rebel,C. Rosenfeld,H. A. Rubin,P. Sail,M. C. Sanchez,M. C. Sanchez,J. Schneps,A. Schreckenberger,P. Schreiner,Rakesh Sharma,A. Sousa,N. Tagg,R. L. Talaga,Juergen Thomas,M. A. Thomson,X. Tian,A. Timmons,J. Todd,S. C. Tognini,R. Toner,D. Torretta,G. Tzanakos,J. Urheim,P. Vahle,B. Viren,A. C. Weber,A. C. Weber,R. C. Webb,Christopher G. White,Leigh H. Whitehead,Stanley G. Wojcicki,R. Zwaska +123 more
TL;DR: A simultaneous fit to the charged-current muon neutrino and neutral-current neutrini energy spectra in the two detectors yields no evidence for sterile neutrinos mixing using a 3+1 model.
Journal ArticleDOI
Measurement of the anomalous precession frequency of the muon in the Fermilab Muon g-2 experiment
T. Albahri,A. Anastasi,Alexey Anisenkov,Alexey Anisenkov,Karie Badgley,S. Baeßler,S. Baeßler,I. R. Bailey,I. R. Bailey,V. A. Baranov,E. Barlas-Yucel,T. Barrett,A. Basti,Franco Bedeschi,Martin Berz,Meghna Bhattacharya,H. P. Binney,P. Bloom,J. Bono,E. Bottalico,T. J. V. Bowcock,Giovanni Cantatore,R. M. Carey,B. C.K. Casey,D. Cauz,R. Chakraborty,S. P. Chang,A. Chapelain,S. Charity,R. T. Chislett,J. Choi,Z. Chu,Timothy Chupp,S. Corrodi,L. Cotrozzi,J. D. Crnkovic,J. D. Crnkovic,J. D. Crnkovic,Sultan B. Dabagov,P. T. Debevec,S. Di Falco,P. Di Meo,G. Di Sciascio,R. Di Stefano,A. Driutti,A. Driutti,V. N. Duginov,M. Eads,J. Esquivel,M. Farooq,R. Fatemi,Claudio Ferrari,Martin Fertl,Martin Fertl,A.T. Fienberg,A. Fioretti,D. Flay,E. Frlež,N. S. Froemming,N. S. Froemming,J. Fry,C. Gabbanini,M. D. Galati,S. Ganguly,S. Ganguly,A. García,J. George,L. K. Gibbons,A. Gioiosa,K. L. Giovanetti,P. Girotti,W. Gohn,T. P. Gorringe,J. Grange,J. Grange,S. Grant,Frederick Gray,Selcuk Haciomeroglu,Tabitha Halewood-leagas,Dariush Hampai,F. Han,J.B. Hempstead,A. T. Herrod,A. T. Herrod,D. W. Hertzog,Gavin Grant Hesketh,A. Hibbert,Z. Hodge,J. L. Holzbauer,K. W. Hong,Ran Hong,Ran Hong,M. Iacovacci,M. Incagli,P. Kammel,Manolis Kargiantoulakis,Marin Karuza,J. Kaspar,D. Kawall,L. Kelton,Alexander Keshavarzi,David Kessler,K. S. Khaw,K. S. Khaw,Z. Khechadoorian,N. V. Khomutov,B. Kiburg,M. Kiburg,M. Kiburg,O. Kim,Y. I. Kim,Barry King,N. Kinnaird,E. Kraegeloh,A. Kuchibhotla,N. A. Kuchinskiy,K. R. Labe,J. LaBounty,M. Lancaster,M. J. Lee,S. Lee,S. Leo,B. Li,B. Li,Dongdong Li,Liang Li,I. Logashenko,I. Logashenko,A. Lorente Campos,A. Lucà,G. Lukicov,A. Lusiani,A. L. Lyon,B. MacCoy,R. Madrak,Kyoko Makino,Fabrizio Marignetti,S. Mastroianni,J. P. Miller,S. Miozzi,William Morse,J. Mott,J. Mott,A. Nath,H. Nguyen,Rachel Osofsky,S. Park,G. Pauletta,G. M. Piacentino,R. N. Pilato,K. T. Pitts,Brad Plaster,Dinko Pocanic,Nicholas A. Pohlman,C. C. Polly,J. D. Price,B. Quinn,N. Raha,S. Ramachandran,E. J. Ramberg,J. L. Ritchie,B. L. Roberts,David Rubin,L. Santi,C. Schlesier,A. Schreckenberger,A. Schreckenberger,A. Schreckenberger,Yannis K. Semertzidis,D. Shemyakin,M. W. Smith,M. Sorbara,Dominik Stöckinger,J. Stapleton,Christopher Stoughton,D. Stratakis,T. Stuttard,H. E. Swanson,G. Sweetmore,D.A. Sweigart,Michael Syphers,Michael Syphers,D. A. Tarazona,Thomas Teubner,A. E. Tewsley-Booth,Kayleigh Anne Thomson,V. Tishchenko,N. H. Tran,W. Turner,E. Valetov,D. Vasilkova,G. Venanzoni,T. Walton,A. Weisskopf,L. Welty-Rieger,P. Winter,Andrzej Wolski,Andrzej Wolski,Wanwei Wu +198 more
TL;DR: The Muon g-2 Experiment at Fermi National Accelerator Laboratory (FNAL) has measured the muon anomalous precession frequency to an uncertainty of 434 parts per billion (ppb), statistical, and 56 ppb, systematic, with data collected in four storage ring configurations during its first physics run in 2018.
Journal ArticleDOI
Limits on active to sterile neutrino oscillations from disappearance searches in the MINOS, Daya Bay, and Bugey-3 experiments
P. Adamson,F. P. An,I. Anghel,I. Anghel,A. Aurisano,A. B. Balantekin,H. R. Band,G.D. Barr,M. Bishai,Andrew Blake,Andrew Blake,Simon Blyth,Simon Blyth,G. J. Bock,D. Bogert,D. Cao,Guofu Cao,Jun Cao,S. V. Cao,T. J. Carroll,C. M. Castromonte,W. R. Cen,Y. L. Chan,J. F. Chang,Li Chang,Y. Chang,Haosheng Chen,Q. Y. Chen,R. Chen,Shaomin Chen,Yi Chen,Yixue Chen,J. Cheng,J. H. Cheng,Yaping Cheng,Z. K. Cheng,J. J. Cherwinka,S. Childress,Ming Chung Chu,Artem Chukanov,Joao A B Coelho,L. Corwin,D. Cronin-Hennessy,J. P. Cummings,J. de Arcos,S. De Rijck,Z. Y. Deng,A. V. Devan,N. E. Devenish,Xuefeng Ding,Y. Y. Ding,M. V. Diwan,M. Dolgareva,J. Dove,D. A. Dwyer,W. R. Edwards,Carlos Escobar,J. J. Evans,E. Falk,G. J. Feldman,W. Flanagan,M. V. Frohne,M. V. Frohne,M. Y. Gabrielyan,H. R. Gallagher,S. Germani,R. L. Gill,R. A. Gomes,Maxim Gonchar,Guanghua Gong,Honghan Gong,M. C. Goodman,P. Gouffon,N. Graf,R. Gran,Marco Grassi,K. Grzelak,W. Q. Gu,Mengyun Guan,L. Guo,R. P. Guo,Xiaohu Guo,Zengcai V. Guo,Alec Habig,R. W. Hackenburg,S. R. Hahn,Ran Han,S. Hans,S. Hans,J. Hartnell,R. Hatcher,Miao He,K. M. Heeger,Y. K. Heng,A. Higuera,A. Holin,Y. K. Hor,Y. B. Hsiung,B. Z. Hu,T. Hu,W. Hu,E. C. Huang,Hanxiong Huang,Junwei Huang,X. T. Huang,Patrick Huber,Wenju Huo,G. Hussain,J. Hylen,G. M. Irwin,Z. Isvan,D. E. Jaffe,P. Jaffke,C. James,K. L. Jen,D. A. Jensen,S. Jetter,X. L. Ji,X. P. Ji,X. P. Ji,J. B. Jiao,R. A. Johnson,J. K. De Jong,J. Joshi,T. Kafka,L. Kang,S. M. S. Kasahara,S. H. Kettell,S. Kohn,G. Koizumi,M. Kordosky,Michael Kramer,Michael Kramer,A. E. Kreymer,K. K. Kwan,M. W. Kwok,T. Kwok,Karol Lang,T. J. Langford,Kwong Lau,L. Lebanowski,J. Lee,J. H. C. Lee,R. T. Lei,Rupert Leitner,J. K. C. Leung,C. Li,Dejun Li,F. Li,Guisen Li,Q. J. Li,S. F. Li,Shanfeng Li,Shanfeng Li,Wei Li,Xiao-yan Li,Yufeng Li,Zhibing Li,H. Liang,Changjian Lin,Guey-Lin Lin,Shengxin Lin,S. K. Lin,Y. C. Lin,J. J. Ling,J. J. Ling,J. M. Link,P. J. Litchfield,P. J. Litchfield,L. S. Littenberg,B. R. Littlejohn,D. W. Liu,Jianglai Liu,Jinmei Liu,C. W. Loh,C. Lu,Haoqi Lu,Jonathan S. Lu,P. Lucas,Kam Biu Luk,Kam Biu Luk,Z. Lv,Qingming Ma,X. B. Ma,X. Y. Ma,Y. Q. Ma,Y. Malyshkin,W. A. Mann,Marvin L Marshak,D. A. Martinez Caicedo,N. Mayer,K. T. McDonald,C. L. McGivern,R. D. McKeown,R. D. McKeown,M. M. Medeiros,R. Mehdiyev,J. R. Meier,M. D. Messier,Warner A. Miller,S. R. Mishra,I. Mitchell,M. Mooney,C. D. Moore,L. Mualem,J. A. Musser,Y. Nakajima,D. Naples,Jim Napolitano,Dmitry V. Naumov,E. Naumova,J. K. Nelson,Harvey B Newman,H. Y. Ngai,R. J. Nichol,Zhi Ning,J. A. Nowak,J. O'Connor,Juan Pedro Ochoa-Ricoux,Alexander Olshevskiy,M. Orchanian,R. B. Pahlka,J. M. Paley,Hao Pan,J. Park,R. B. Patterson,S. J. Patton,Gregory J Pawloski,V. Pec,Jen-Chieh Peng,A. Perch,M. M. Pfützner,D. D. Phan,S. Phan-Budd,Lawrence Pinsky,R. K. Plunkett,N. Poonthottathil,Chun S. J. Pun,F. Z. Qi,M. Qi,Xin Qian,X. Qiu,A. Radovic,N. Raper,B. Rebel,Jinjuan Ren,C. Rosenfeld,Richard Rosero,B. Roskovec,X. C. Ruan,H. A. Rubin,P. Sail,M. C. Sanchez,M. C. Sanchez,J. Schneps,A. Schreckenberger,P. Schreiner,Rakesh Sharma,S. Moed Sher,A. Sousa,H. M. Steiner,H. M. Steiner,G. X. Sun,J. L. Sun,N. Tagg,R. L. Talaga,W. Tang,D. Taychenachev,Juergen Thomas,M. A. Thomson,X. Tian,A. Timmons,J. Todd,S. C. Tognini,R. Toner,D. Torretta,K. Treskov,K. V. Tsang,C. E. Tull,G. Tzanakos,G. Tzanakos,J. Urheim,P. Vahle,N. Viaux,B. Viren,Vit Vorobel,Chunjie Wang,M. Z. Wang,N. Y. Wang,R. G. Wang,Wei Wang,Wei Wang,X. Wang,Yanchu Wang,Z. Wang,Z. M. Wang,R. C. Webb,A. C. Weber,A. C. Weber,H. Y. Wei,Liangjian Wen,K. Whisnant,Carl White,L. H. Whitehead,Leigh H. Whitehead,T. Wise,Stanley G. Wojcicki,H. L. H. Wong,H. L. H. Wong,Siew Cheng Wong,E. T. Worcester,C. H. Wu,Qinglong Wu,W. J. Wu,D. M. Xia,J. K. Xia,Zhi-zhong Xing,J. L. Xu,J. Y. Xu,Y. Xu,Tian Xue,Changgen Yang,Haijun Yang,Lin Yang,Mengsu Yang,M. T. Yang,M. Ye,Z. Ye,Minfang Yeh,Bing-Lin Young,Z. Y. Yu,S. Zeng,Liang Zhan,Chao Zhang,H. H. Zhang,Jiawen Zhang,Qingmin Zhang,X. T. Zhang,Yanfeng Zhang,Y. X. Zhang,Zhijian Zhang,Z. P. Zhang,Zhiyong Zhang,Jing Zhao,Q. W. Zhao,Yi-Fang Zhao,W. L. Zhong,Li Zhou,Ning Zhou,H. L. Zhuang,Jiaheng Zou +350 more
TL;DR: Results from both experiments are combined with those from the Bugey-3 reactor neutrino experiment to constrain oscillations into light sterile neutrinos, enabling the combined analysis to probe regions allowed by the Liquid Scintillator Neutrino Detector (LSND) and MiniBooNE experiments in a minimally extended four-neutrinos flavor framework.