J
Jim Napolitano
Researcher at Temple University
Publications - 135
Citations - 10809
Jim Napolitano is an academic researcher from Temple University. The author has contributed to research in topics: Neutrino & Neutrino oscillation. The author has an hindex of 37, co-authored 135 publications receiving 9814 citations. Previous affiliations of Jim Napolitano include Rensselaer Polytechnic Institute & Thomas Jefferson National Accelerator Facility.
Papers
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Book
Modern Quantum Mechanics
J. J. Sakurai,Jim Napolitano +1 more
TL;DR: Modern Quantum Mechanics as mentioned in this paper is a classic graduate level textbook, covering the main quantum mechanics concepts in a clear, organized and engaging manner, and introduces topics that extend the text's usefulness into the twenty-first century, such as advanced mathematical techniques associated with quantum mechanical calculations.
Journal ArticleDOI
The CEBAF large acceptance spectrometer (CLAS)
Bernhard Mecking,G. S. Adams,S. Ahmad,E. Anciant,M. Anghinolfi,B. Asavapibhop,G. Asryan,G. Audit,Thierry Auger,H. Avakian,J. P. Ball,F. Barbosa,S. Barrow,M. Battaglieri,K. Beard,K. Beard,B. L. Berman,N. Bianchi,S. Boiarinov,P. Bonneau,W. J. Briscoe,W. K. Brooks,Volker D. Burkert,Daniel S. Carman,T. Carstens,C. Cetina,S.B. Christo,Philip L. Cole,Philip L. Cole,A. Coleman,J. Connelly,D. Cords,P. Corvisiero,D. G. Crabb,Hall Crannell,R.C. Cuevas,P. V. Degtyarenko,L.C. Dennis,E. DeSanctis,R. DeVita,J. Distelbrink,G. E. Dodge,W. R. Dodge,G. Doolittle,D. Doughty,D. Doughty,Michael Dugger,W.S. Duncan,S. A. Dytman,H. Egiyan,K. S. Egiyan,L. Elouadrhiri,L. Elouadrhiri,R. J. Feuerbach,J. Ficenec,V. Frolov,H. O. Funsten,Gerard Gilfoyle,K. L. Giovanetti,E. Golovatch,J. Gram,M. Guidal,V. Gyurjyan,V. Gyurjyan,D. Heddle,D. Heddle,P. Hemler,F. W. Hersman,K.H. Hicks,R. S. Hicks,M. Holtrop,C. E. Hyde-Wright,D. Insley,M. M. Ito,G. Jacobs,David Jenkins,K. Joo,D. Joyce,D. Kashy,M. Khandaker,W. Kim,Avraham Klein,Friedrich Klein,Friedrich Klein,Friedrich Klein,M. Klusman,M. Kossov,Laird Kramer,V. Koubarovski,S. E. Kuhn,A. Lake,D. Lawrence,D. Lawrence,A. Longhi,K. Lukashin,K. Lukashin,K. Lukashin,J. Lachniet,R. Magahiz,W. Major,J. J. Manak,C. Marchand,C. Martin,S. K. Matthews,M. McMullen,J. W C McNabb,M. D. Mestayer,R. C. Minehart,M. Mirazita,R. Miskimen,V. Muccifora,James Mueller,L. Y. Murphy,G. S. Mutchler,Jim Napolitano,I. Niculescu,B. B. Niczyporuk,M. Nozar,John T. O'Brien,A. K. Opper,J.E. O'Meara,E. Pasyuk,S. A. Philips,E. Polli,J. W. Price,J. W. Price,S. Pozdniakov,L. M. Qin,B. A. Raue,B. A. Raue,G. Riccardi,G. Ricco,C. Riggs,M. Ripani,Barry Ritchie,J. Robb,Federico Ronchetti,P. Rossi,F. Roudot,C. Salgado,V. Sapunenko,R. A. Schumacher,V. S. Serov,Y. G. Sharabian,Y. G. Sharabian,Elton Smith,L. C. Smith,Thomas E. Smith,D. I. Sober,A.V. Stavinsky,S. Stepanyan,P. Stoler,M. Taiuti,W.M. Taylor,S. Taylor,D. J. Tedeschi,D. J. Tedeschi,U. Thoma,Roy Thompson,D. Tilles,L. Todor,T.Y. Tung,W. Tuzel,Michael Vineyard,A. V. Vlassov,Larry Weinstein,Robert E. Welsh,Robert E. Welsh,D. P. Weygand,G.R. Wilkin,M. Witkowski,E. Wolin,A. Yegneswaran,P.F. Yergin,J. Yun +174 more
TL;DR: The CEBAF Large Acceptance Spectrometer (CLAS) as mentioned in this paper is used to study photo-and electro-induced nuclear and hadronic reactions by providing efficient detection of neutral and charged particles over a good fraction of the full solid angle.
Posted ContentDOI
Heavy quarkonium physics
Nora Brambilla,Michael Kramer,R. Mussa,Antonio Vairo,Gunnar S. Bali,Geoffrey T. Bodwin,Eric Braaten,Estia Eichten,Semen Eidelman,Stephen Godfrey,A. Hoang,Matthias Jamin,Dmitri E. Kharzeev,Maria Paola Lombardo,Carlos Lourenco,Arnd Meyer,V. Papadimitriou,C. Patrignani,M. Rosati,M. A. Sanchis-Lozano,Helmut Satz,Joan Soto,D. Besson,D. Bettoni,A. Böhrer,Stewart Boogert,C.-H. Chang,P. Cooper,Philippe Crochet,Saumen Datta,Christine Davies,Aldo Deandrea,R. Faustov,Thomas Ferguson,R. Galik,F. A. Harris,O. Iouchtchenko,Olaf Kaczmarek,Frithjof Karsch,M. Kienzle,V. V. Kiselev,S. R. Klein,P. Kroll,Andreas S. Kronfeld,Y.-P. Kuang,Vincenzo Laporta,Jungil Lee,Adam K. Leibovich,J. P. Ma,P. B. Mackenzie,L. Maiani,Michelangelo L. Mangano,A. Meyer,X. H. Mo,Colin Morningstar,Armin Michael Nairz,Jim Napolitano,S. L. Olsen,Alexander A. Penin,Peter Petreczky,Fulvio Piccinini,Antonio Morelos Pineda,Antonio D. Polosa,Ralf Rapp,L. Ramello,Jean-Marc Richard,V. Riguer,S. Ricciardi,Enrico Robutti,O. Schneider,Enrico Scomparin,J. N. Simone,T. Skwarnicki,Giulio Stancari,Iain W. Stewart,Yu. Sumino,Thomas Teubner,J. Tseng,Ramona Vogt,P. Wang,Bruce Yabsley,C.Z. Yuan,F. Zantow,Zhengguo Zhao,A. Zieminski +84 more
TL;DR: A comprehensive overview of the state of the art in heavy quarkonium theory and experiment can be found in this article, with a discussion of the current state-of-the-art.
Journal ArticleDOI
Improved Measurement of Electron Antineutrino Disappearance at Daya Bay
F. P. An,Q. An,J. Z. Bai,A. B. Balantekin,H. R. Band,W. Beriguete,M. Bishai,S. L. Blyth,R. L. Brown,Guofu Cao,Jun Cao,R. Carr,Wai Ting Chan,J. F. Chang,Y. Chang,C. Chasman,H. S. Chen,Huo Yan Chen,S. J. Chen,Shaomin Chen,X. C. Chen,Xiaoyuan Chen,X. S. Chen,Yi Chen,Yixue Chen,J. J. Cherwinka,Ming Chung Chu,J. P. Cummings,Z. Y. Deng,Y. Y. Ding,M. V. Diwan,E. Draeger,X. F. Du,D. A. Dwyer,W. R. Edwards,S. R. Ely,S. D. Fang,J. Y. Fu,Zai-Wei Fu,L. Q. Ge,R. L. Gill,Maxim Gonchar,Guanghua Gong,Honghan Gong,Y. A. Gornushkin,W. Q. Gu,Min-Xin Guan,Xiaohu Guo,R. W. Hackenburg,R. L. Hahn,S. Hans,Hao Hao,Miao He,Q. He,K. M. Heeger,Y. K. Heng,P. Hinrichs,Y. K. Hor,Y. B. Hsiung,B. Z. Hu,Tao Hu,H. X. Huang,H. Z. Huang,Xingtao Huang,Patrick Huber,Vadim Issakov,Z. Isvan,D. E. Jaffe,S. Jetter,X. L. Ji,Xiaolu Ji,H. J. Jiang,J. B. Jiao,R. A. Johnson,L. Kang,S. H. Kettell,Michael Kramer,K. K. Kwan,M. W. Kwok,T. Kwok,Ching-Yao Lai,W. C. Lai,Wing-Hon Lai,Kwong Lau,L. Lebanowski,J. Lee,R. T. Lei,Rupert Leitner,J. K. C. Leung,Kwok Yin Leung,C. A. Lewis,F. Li,Guisen Li,Q. J. Li,Wei Li,X. B. Li,X. N. Li,X. Q. Li,Yufeng Li,Zhibing Li,H. Liang,Changjian Lin,Guey-Lin Lin,S. K. Lin,Y. C. Lin,J. J. Ling,J. M. Link,L. S. Littenberg,B. R. Littlejohn,D. W. Liu,Jianglai Liu,Jinmei Liu,Y. B. Liu,C. Lu,Haoqi Lu,A. Luk,Kam Biu Luk,Qingming Ma,X. B. Ma,X. Y. Ma,Y. Q. Ma,K. T. McDonald,M. C. McFarlane,R. D. McKeown,Yue Meng,D. Mohapatra,Y. Nakajima,Jim Napolitano,Dmitry V. Naumov,Igor Nemchenok,H. Y. Ngai,W. K. Ngai,Y. B. Nie,Zhi Ning,Juan Pedro Ochoa-Ricoux,A. G. Olshevski,S. J. Patton,V. Pec,Jen-Chieh Peng,L. E. Piilonen,L. S. Pinsky,Chun S. J. Pun,F. Z. Qi,M. Qi,Xiaohui Qian,N. Raper,Jinjuan Ren,Richard Rosero,B. Roskovec,X. C. Ruan,B. B. Shao,K. Shih,H. M. Steiner,G. X. Sun,J. L. Sun,N. Tagg,Y. H. Tam,H. K. Tanaka,X. Tang,H. Themann,Yagmur Torun,S. Trentalange,O. D. Tsai,K. V. Tsang,R. H.M. Tsang,C. E. Tull,Y. C. Tung,B. Viren,Vit Vorobel,Chunjie Wang,L. S. Wang,L. Y. Wang,Lu Wang,M. Wang,N. Y. Wang,R. G. Wang,W. P. Wang,Xiangyue Wang,Yanchu Wang,Zheng Wang,Z. Wang,D. M. Webber,H. Y. Wei,Yi Wei,Liangjian Wen,K. Whisnant,C. White,L. H. Whitehead,Y. Williamson,T. Wise,H. L. H. Wong,E. T. Worcester,F. F. Wu,Qinglong Wu,J. B. Xi,D. M. Xia,Zhi-zhong Xing,J. L. Xu,Jia Xu,Y. Xu,Tian Xue,Changgen Yang,Lin Yang,Meng Ye,Minfang Yeh,Y. S. Yeh,Bing-Lin Young,Zeyuan Yu,Liang Zhan,Chao Zhang,F. H. Zhang,Jiawen Zhang,Qingmin Zhang,S. H. Zhang,Y. C. Zhang,Y. H. Zhang,Y. X. Zhang,Zhijian Zhang,Z. P. Zhang,Zhiyong Zhang,Jing Zhao,Q. W. Zhao,Yi-Fang Zhao,L. Zheng,W. L. Zhong,Li Zhou,Zhongyuan Zhou,H. L. Zhuang,Jiaheng Zou +228 more
TL;DR: In this article, an improved measurement of the neutrino mixing angle was reported from the Daya Bay Reactor Neutrino Experiment, with a significance of 7.7 standard deviations.
Journal ArticleDOI
Improved measurement of electron antineutrino disappearance at Daya Bay
F. P. An,Q. An,J. Z. Bai,A. B. Balantekin,H. R. Band,W. Beriguete,M. Bishai,S. Blyth,R. L. Brown,Guofu Cao,Jun Cao,R. Carr,Wai Ting Chan,J. F. Chang,Y. Chang,C. Chasman,H. S. Chen,Huo Yan Chen,S. J. Chen,Shaomin Chen,X. C. Chen,Xiaoyuan Chen,Xurong Chen,Yi Chen,Yixue Chen,J. J. Cherwinka,Ming Chung Chu,J. P. Cummings,Z. Y. Deng,Y. Y. Ding,M. V. Diwan,E. Draeger,X. F. Du,D. A. Dwyer,W. R. Edwards,W. R. Edwards,S. R. Ely,S. D. Fang,J. Y. Fu,Zai-Wei Fu,L. Q. Ge,R. L. Gill,Maxim Gonchar,Guanghua Gong,Honghan Gong,Y. A. Gornushkin,W. Q. Gu,Min-Xin Guan,Xiaohu Guo,R. W. Hackenburg,R. L. Hahn,S. Hans,Hao Hao,Miao He,Q. He,K. M. Heeger,Y. K. Heng,P. Hinrichs,Y. K. Hor,Y. B. Hsiung,B. Z. Hu,Tao Hu,H. X. Huang,H. Z. Huang,Xingtao Huang,Patrick Huber,Vadim Issakov,Z. Isvan,D. E. Jaffe,S. Jetter,X. L. Ji,X. P. Ji,H. J. Jiang,J. B. Jiao,R. A. Johnson,L. Kang,S. H. Kettell,Michael Kramer,Michael Kramer,K. K. Kwan,M. W. Kwok,T. Kwok,Ching-Yao Lai,W. C. Lai,Wing-Hon Lai,Kwong Lau,L. Lebanowski,Joonho Lee,R. T. Lei,Rupert Leitner,J. K. C. Leung,Kwok Yin Leung,C. A. Lewis,F. Li,Guisen Li,Q. J. Li,Wei Li,X. B. Li,X. N. Li,X. Q. Li,Yufeng Li,Zhibing Li,H. Liang,Changjian Lin,Guey-Lin Lin,S. K. Lin,Y. C. Lin,Y. C. Lin,Y. C. Lin,J. J. Ling,J. M. Link,L. S. Littenberg,B. R. Littlejohn,B. R. Littlejohn,D. W. Liu,Jianglai Liu,Jinmei Liu,Y. B. Liu,C. Lu,Haoqi Lu,A. Luk,Kam Biu Luk,Kam Biu Luk,Qingming Ma,Xubo Ma,X. Y. Ma,Y. Q. Ma,K. T. McDonald,M. C. McFarlane,R. D. McKeown,R. D. McKeown,Yue Meng,D. Mohapatra,Y. Nakajima,Jim Napolitano,Dmitry V. Naumov,Igor Nemchenok,H. Y. Ngai,W. K. Ngai,Y. B. Nie,Zhi Ning,Juan Pedro Ochoa-Ricoux,A. G. Olshevski,S. J. Patton,V. Pec,Jen-Chieh Peng,L. E. Piilonen,Lawrence Pinsky,Chun S. J. Pun,F. Z. Qi,M. Qi,Xin Qian,N. Raper,Jinjuan Ren,Richard Rosero,B. Roskovec,X. C. Ruan,B. B. Shao,K. Shih,H. M. Steiner,H. M. Steiner,G. X. Sun,J. L. Sun,N. Tagg,Y. H. Tam,H. K. Tanaka,X. Tang,H. Themann,Yagmur Torun,S. Trentalange,O. D. Tsai,K. V. Tsang,R. H.M. Tsang,C. E. Tull,Y. C. Tung,B. Viren,Vit Vorobel,Chunjie Wang,L. S. Wang,L. Y. Wang,L. Z. Wang,M. Z. Wang,N. Y. Wang,R. G. Wang,W. P. Wang,Xuan Wang,Yanchu Wang,Zheng Wang,Z. Wang,D. M. Webber,H. Y. Wei,Yi Wei,Liangjian Wen,K. Whisnant,C. White,L. H. Whitehead,Y. Williamson,T. Wise,H. L. H. Wong,H. L. H. Wong,E. T. Worcester,F. F. Wu,Qinglong Wu,J. B. Xi,D. M. Xia,Zhi-zhong Xing,Jianbin Xu,J. L. Xu,Y. Xu,Tian Xue,Changgen Yang,Lin Yang,Meng Ye,Minfang Yeh,Y. S. Yeh,Bing-Lin Young,Zeyuan Yu,Liang Zhan,Chao Zhang,F. H. Zhang,Jiawen Zhang,Qingmin Zhang,S. H. Zhang,Y. C. Zhang,Y. H. Zhang,Y. X. Zhang,Zhijian Zhang,Zhenyu Zhang,Zhiyong Zhang,Jing Zhao,Q. W. Zhao,Yi-Fang Zhao,L. Zheng,W. L. Zhong,Li Zhou,Zhongyuan Zhou,H. L. Zhuang,Jiaheng Zou +237 more
TL;DR: The Daya Bay experiment has improved the measurement of the nuclear mixing parameter by 2.5× the previously reported exposure, and continues to be the most accurate measurement of θ_(13) as discussed by the authors.