1 Papers
M. Chada is an academic researcher from California Institute of Technology. The author has contributed to research in topics: Pseudoscalar & Particle decay. The author has an hindex of 1, co-authored 1 publications.
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Papers
Improved measurement of the pseudoscalar decay constant fDs
M. Chada,S. Chan,G. Eigen,J. S. Miller,C. O'Grady,M. Schmidtler,J. Urheim,A. J. Weinstein,Frank Würthwein,D. W. Bliss,G. Masek,H. P. Paar,S. Prell,Vivek Sharma,D. M. Asner,J. Gronberg,T. S. Hill,Dj Lange,R. J. Morrison,H. N. Nelson,T. K. Nelson,D. Roberts,Anders Ryd,R. Balest,B. H. Behrens,W. T. Ford,Harold S. Park,J. Roy,J. G. Smith,J. P. Alexander,R. Baker,C. Bebek,B. E. Berger,Karl Berkelman,Kenneth Bloom,V. Boisvert,D. G. Cassel,D. S. Crowcroft,M. Dickson,S. von Dombrowski,P. S. Drell,K. M. Ecklund,R. Ehrlich,A. D. Foland,P. Gaidarev,L. K. Gibbons,B. Gittelman,S. W. Gray,D. L. Hartill,B. K. Heltsley,P. I. Hopman,J. Kandaswamy,P. C. Kim,D. L. Kreinick,T. Lee,Yanwen Liu,N. B. Mistry,C. R. Ng,E. Nordberg,M. Ogg,M. Ogg,Juliet Ritchie Patterson,D. Peterson,D. Riley,A. Soffer,B. Valant-Spaight,C. Ward,M. Athanas,Paul Avery,C. D. Jones,M. Lohner,S. Patton,C.Y. Prescott,John Yelton,J. Zheng,G. W. Brandenburg,R. A. Briere,A. Ershov,Y. S. Gao,D. Y.J. Kim,Richard Wilson,H. Yamamoto,T. E. Browder,Y. Li,J. L. Rodriguez,T. Bergfeld,B. I. Eisenstein,J. Ernst,G. E. Gladding,G. D. Gollin,R. M. Hans,E. Johnson,I. Karliner,M. A. Marsh,M.A. Palmer,Mats A Selen,J. J. Thaler,K. W. Edwards,Alain Bellerive,R. Janicek,D. B. MacFarlane,P. M. Patel,A. J. Sadoff,R. Ammar,Philip Baringer,Alice Bean,D. Z. Besson,D. Coppage,C. Darling,R. Davis,S. Kotov,Ilya Kravchenko,N. Kwak,L. Zhou,S. Anderson,Yuichi Kubota,S. J. Lee,J. J. O'Neill,R. Poling,T. Riehle,A. Smith,M. S. Alam,S. B. Athar,Z. Ling,A. H. Mahmood,S.C. Timm,F. R. Wappler,A. Anastassov,J. E. Duboscq,D. Fujino,D. Fujino,K. K. Gan,T. Hart,K. Honscheid,H. Kagan,R. D. Kass,Jungil Lee,M. B. Spencer,M. Sung,A. Undrus,A. Undrus,A. Wolf,M. M. Zoeller,B. Nemati,S. J. Richichi,W. R. Ross,Horst Severini,P. Skubic,M. Bishai,J. Fast,J. W. Hinson,N. Menon,D. H. Miller,E. I. Shibata,I. P.J. Shipsey,M. Yurko,S. Glenn,S. D. Johnson,Y. Kwon,Y. Kwon,S. Roberts,E. H. Thorndike,C. P. Jessop,K. Lingel,H. Marsiske,M. L. Perl,V. Savinov,D. Ugolini,R. Wang,Xingjiang Zhou,T. E. Coan,V. Fadeyev,I. Korolkov,Yurii Maravin,I. Narsky,V. Shelkov,J. Staeck,Ryszard Stroynowski,I. Volobouev,Jianqiao Ye,Marina Artuso,F. Azfar,A. Efimov,M. Goldberg,D. He,Sacha E Kopp,G. C. Moneti,R. Mountain,S. Schuh,Tomasz Skwarnicki,Sheldon Stone,G. Viehhauser,Xiangjun Xing,J. Bartelt,S. E. Csorna,Vivek Jain,Vivek Jain,K. W. McLean,Sz Márka,R. Godang,K. Kinoshita,I. C. Lai,P. Pomianowski,S. Schrenk,G. Bonvicini,D. Cinabro,Richard L. Greene,L. P. Perera,G. J. Zhou +208 more
TL;DR: In this paper, the authors present the PhysRevD model for the first time, which is based on the idea of the EKF model, and also available electronically from http://journals.aps.org/prd/abstract/10.1103/PhysRevD.58.032002.