J. A. Kadyk
University of California, Berkeley
84 Papers
800 Citations
J. A. Kadyk is an academic researcher from University of California, Berkeley. The author has contributed to research in topics: Branching fraction & Annihilation. The author has an hindex of 30, co-authored 84 publications. Previous affiliations of J. A. Kadyk include Harvard University & Stanford University.
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Papers
Search for the production of the final states tau + tau -e+e-, tau + tau - micro+ micro-, and tau + tau - pi + pi - in e+e- collisions at sqrt s =29 GeV.
T. Barklow,T. Barklow,T. Barklow,W. R. Innes,W. R. Innes,W. R. Innes,M. Petradza,M. Petradza,M. Petradza,A. Snyder,A. Snyder,A. Snyder,D. P. Stoker,D. P. Stoker,D. P. Stoker,S. R. Wagner,S. R. Wagner,S. R. Wagner,G. S. Abrams,G. S. Abrams,G. S. Abrams,D. Amidei,D. Amidei,D. Amidei,A. Baden,A. Baden,A. Baden,A. M. Boyarski,A. M. Boyarski,A. M. Boyarski,J. Boyer,J. Boyer,J. Boyer,Patricia R. Burchat,Patricia R. Burchat,Patricia R. Burchat,D. L. Burke,D. L. Burke,D. L. Burke,F. Butler,F. Butler,F. Butler,J. M. Dorfan,J. M. Dorfan,J. M. Dorfan,G. J. Feldman,G. J. Feldman,G. J. Feldman,G. Gidal,G. Gidal,G. Gidal,L. Gladney,L. Gladney,L. Gladney,M. S. Gold,M. S. Gold,M. S. Gold,G. Goldhaber,G. Goldhaber,G. Goldhaber,L. Golding,L. Golding,L. Golding,J. Haggerty,J. Haggerty,J. Haggerty,Gordon H. Hanson,Gordon H. Hanson,Gordon H. Hanson,K. Hayes,K. Hayes,K. Hayes,D. Herrup,D. Herrup,D. Herrup,R. J. Hollebeek,R. J. Hollebeek,R. J. Hollebeek,J. A. Jaros,J. A. Jaros,J. A. Jaros,I. Juricic,I. Juricic,I. Juricic,J. A. Kadyk,J. A. Kadyk,J. A. Kadyk,D. Karlen,D. Karlen,D. Karlen,Andrew Lankford,Andrew Lankford,Andrew Lankford,R. R. Larsen,R. R. Larsen,R. R. Larsen,B. W. Leclaire,B. W. Leclaire,B. W. Leclaire,Michael Levi,Michael Levi,Michael Levi,N. S. Lockyer,N. S. Lockyer,N. S. Lockyer,V. Lüth,V. Lüth,V. Lüth,Mark E. Nelson,Mark E. Nelson,Mark E. Nelson,R. A. Ong,R. A. Ong,R. A. Ong,M. L. Perl,M. L. Perl,M. L. Perl,Burton Richter,Burton Richter,Burton Richter,K. Riles,K. Riles,K. Riles,P. C. Rowson,P. C. Rowson,P. C. Rowson,T. Schaad,T. Schaad,T. Schaad,H. Schellman,H. Schellman,H. Schellman,W. B. Schmidke,W. B. Schmidke,W. B. Schmidke,P. D. Sheldon,P. D. Sheldon,P. D. Sheldon,G. H. Trilling,G. H. Trilling,G. H. Trilling,Darien Wood,Darien Wood,Darien Wood,J. M. Yelton,J. M. Yelton,J. M. Yelton +146 more
TL;DR: This work searches for the reaction e+e-, where f is either an electron, muon, or charged pion, at s =29 GeV using the Mark II detector at the SLAC PEP storage ring and sees the number of events predicted by the standard model.
Limits on J ψ and Υ{hooked} production in e+e- interactions at s = 29 GeV
C. Matteuzzi,C. Matteuzzi,C. Matteuzzi,G. S. Abrams,G. S. Abrams,G. S. Abrams,D. Amidei,D. Amidei,D. Amidei,C. A. Blocker,C. A. Blocker,C. A. Blocker,A. M. Boyarski,A. M. Boyarski,A. M. Boyarski,Martin Breidenbach,Martin Breidenbach,Martin Breidenbach,D. L. Burke,D. L. Burke,D. L. Burke,W. Chinowsky,W. Chinowsky,W. Chinowsky,W. E. Dieterle,W. E. Dieterle,W. E. Dieterle,J. B. Dillon,J. B. Dillon,J. B. Dillon,J. M. Dorfan,J. M. Dorfan,J. M. Dorfan,M. W. Eaton,M. W. Eaton,M. W. Eaton,G. J. Feldman,G. J. Feldman,G. J. Feldman,M. E.B. Granklin,M. E.B. Granklin,M. E.B. Granklin,G. Gidal,G. Gidal,G. Gidal,L. Gladney,L. Gladney,L. Gladney,M. S. Gold,M. S. Gold,M. S. Gold,G. Goldhaber,G. Goldhaber,G. Goldhaber,L. Golding,L. Golding,L. Golding,Gordon H. Hanson,Gordon H. Hanson,Gordon H. Hanson,R. J. Hollebeek,R. J. Hollebeek,R. J. Hollebeek,W. R. Innes,W. R. Innes,W. R. Innes,J. A. Jaros,J. A. Jaros,J. A. Jaros,A. D. Johnson,A. D. Johnson,A. D. Johnson,J. A. Kadyk,J. A. Kadyk,J. A. Kadyk,Andrew Lankford,Andrew Lankford,Andrew Lankford,R. R. Larsen,R. R. Larsen,R. R. Larsen,B. W. Leclaire,B. W. Leclaire,B. W. Leclaire,Michael Levi,Michael Levi,Michael Levi,N. S. Lockyer,N. S. Lockyer,N. S. Lockyer,V. Lüth,V. Lüth,V. Lüth,Mark E. Nelson,Mark E. Nelson,Mark E. Nelson,J. F. Patrick,J. F. Patrick,J. F. Patrick,M. L. Perl,M. L. Perl,M. L. Perl,Burton Richter,Burton Richter,Burton Richter,P. C. Rowson,P. C. Rowson,P. C. Rowson,T. Schaad,T. Schaad,T. Schaad,H. Schellman,H. Schellman,H. Schellman,D. Schlatter,D. Schlatter,D. Schlatter,Roy F Schwitters,Roy F Schwitters,Roy F Schwitters,P. D. Sheldon,P. D. Sheldon,P. D. Sheldon,J. Strait,J. Strait,J. Strait,G. H. Trilling,G. H. Trilling,G. H. Trilling,C. De La Vaissiere,C. De La Vaissiere,C. De La Vaissiere,J. M. Yelton,J. M. Yelton,J. M. Yelton,C. Zaiser,C. Zaiser,C. Zaiser +137 more
TL;DR: In this article, a search has been made for the inclusion of J ψ (3.1) and Υ{hooked} (9.4) mesons in e+e- interactions at 29 GeV, via their decay into two leptons.
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Performance of microstrip gas chambers with conductive surface coating of doped amorphous silicon carbide (a-Si:C:H)
TL;DR: In this paper, a new technique involves the use of doped amorphous silicon carbide (a-Si:C:H) as a conductive surface coating in the fabrication of microstrip gas chambers, to eliminate the effect of charge accumulation on the substrate surface.
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Observation of psi production in e+e- annihilation at 29 GeV.
G. Wormser,G. Wormser,G. Wormser,R. A. Ong,R. A. Ong,R. A. Ong,G. S. Abrams,G. S. Abrams,G. S. Abrams,D. Amidei,D. Amidei,D. Amidei,A. Baden,A. Baden,A. Baden,T. Barklow,T. Barklow,T. Barklow,A. M. Boyarski,A. M. Boyarski,A. M. Boyarski,J. Boyer,J. Boyer,J. Boyer,Patricia R. Burchat,Patricia R. Burchat,Patricia R. Burchat,D. L. Burke,D. L. Burke,D. L. Burke,F. Butler,F. Butler,F. Butler,J. M. Dorfan,J. M. Dorfan,J. M. Dorfan,G. J. Feldman,G. J. Feldman,G. J. Feldman,G. Gidal,G. Gidal,G. Gidal,L. Gladney,L. Gladney,L. Gladney,M. S. Gold,M. S. Gold,M. S. Gold,G. Goldhaber,G. Goldhaber,G. Goldhaber,L. Golding,L. Golding,L. Golding,J. Haggerty,J. Haggerty,J. Haggerty,Gordon H. Hanson,Gordon H. Hanson,Gordon H. Hanson,K. Hayes,K. Hayes,K. Hayes,D. Herrup,D. Herrup,D. Herrup,R. J. Hollebeek,R. J. Hollebeek,R. J. Hollebeek,W. R. Innes,W. R. Innes,W. R. Innes,J. A. Jaros,J. A. Jaros,J. A. Jaros,I. Juricic,I. Juricic,I. Juricic,J. A. Kadyk,J. A. Kadyk,J. A. Kadyk,D. Karlen,D. Karlen,D. Karlen,S. R. Klein,S. R. Klein,S. R. Klein,Andrew Lankford,Andrew Lankford,Andrew Lankford,R. R. Larsen,R. R. Larsen,R. R. Larsen,B. W. Leclaire,B. W. Leclaire,B. W. Leclaire,Michael Levi,Michael Levi,Michael Levi,N. S. Lockyer,N. S. Lockyer,N. S. Lockyer,V. Lüth,V. Lüth,V. Lüth,C. Matteuzzi,C. Matteuzzi,C. Matteuzzi,Mark E. Nelson,Mark E. Nelson,Mark E. Nelson,Burton Richter,Burton Richter,Burton Richter,K. Riles,K. Riles,K. Riles,P. C. Rowson,P. C. Rowson,P. C. Rowson,T. Schaad,T. Schaad,T. Schaad,H. Schellman,H. Schellman,H. Schellman,W. B. Schmidke,W. B. Schmidke,W. B. Schmidke,P. D. Sheldon,P. D. Sheldon,P. D. Sheldon,G. H. Trilling,G. H. Trilling,G. H. Trilling,C. De La Vaissiere,C. De La Vaissiere,C. De La Vaissiere,Darien Wood,Darien Wood,Darien Wood,J. M. Yelton,J. M. Yelton,J. M. Yelton +143 more
TL;DR: In this article, the Mark II detector has been used to measure the number of psi particles produced in e/sup +/e/sup -/ annihilation at 29 GeV and the cross section is found to be 1.1 +- 0.5 + − 0.4 pb, after subtraction of the expected contribution from B decay.
A liquid-hydrogen Čerenkov counter
TL;DR: In this paper, two models of a liquid-hydrogen Cerenkov counter have been constructed and tested, one serving as a prototype and the other being designed for use in an experiment in which particles brought to rest in the hydrogen could give rise to relativistic electrons.
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