P. Border
University of Michigan
7 Papers
11 Citations
P. Border is an academic researcher from University of Michigan. The author has contributed to research in topics: Production (computer science) & CP violation. The author has an hindex of 6, co-authored 7 publications.
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Papers
Measurement of the 00 branching ratio and asymmetry parameter
S. Teige,Andrew Beretvas,A. Caracappa,T. Devlin,H. T. Diehl,K. Krueger,Gordon Thomson,P. Border,P.M. Ho,M. J. Longo,J. Duryea,N. Grossman,Ken Heller,M. Shupe,K. Thorne +14 more
TL;DR: In this paper, the decay branching ratio was measured from 85{plus minus}10 examples of the decay and the asymmetry parameter was shown to be 0.20{plus plus minus}0.32(stat)plus minus 0.05(syst).
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A preliminary measurement of the. Xi. sup 0 r arrow. Sigma. sup 0. gamma. branching ratio and asymmetry parameter
S. Teige,A. Beretvas,A. Caracappa,T. Devlin,H. T. Diehl,K. Krueger,P. Border,P. M. Ho,M. J. Longo +8 more
- 01 May 1989
TL;DR: In this article, the decay branching ratio of the weak radiative decay was measured from a sample of 85 plus minus 10 events and the asymmetry parameter was found to be 0.28.
Measurement of the lifetime of KS0 mesons in the momentum range 100 to 350 GeV/c.
N. Grossman,Ken Heller,C. James,M. Shupe,K. Thorne,P. Border,M. J. Longo,Andrew Beretvas,A. Caracappa,T. Devlin,H. T. Diehl,U. Joshi,K. Krueger,P. C. Petersen,S. Teige,and G. B. Thomson +15 more
TL;DR: In this paper, the lifetime of mesons produced by 800-GeV/c protons on tungsten was measured at Fermilab and the results were completely consistent with Lorentz invariance.
Search for CP violation in the decay KS0 → π+π−π0
Y. Zou,Andrew Beretvas,A. Caracappa,T. Devlin,H. T. Diehl,K. Krueger,S. S. Myung,S. Teige,Gordon Thomson,N. Grossman,Ken Heller,K. Thorne,P. Border,M. J. Longo +13 more
TL;DR: In this article, the authors performed an experiment at Fermilab to search for CP symmetry nonconservation in the decay K S 0 → π + π − π 0.
Measurement of the Sigma 0- Lambda transition magnetic moment.
P. C. Petersen,Andrew Beretvas,T. Devlin,K. B. Luk,Gordon Thomson,R. Whitman,R. Handler,B. Lundberg,L. Pondrom,M. Sheaff,C. Wilkinson,P. Border,J. Dworkin,Oliver E. Overseth,R. Rameika,G. Valenti,Ken Heller,C. James +17 more
TL;DR: The transition magnetic moment has been measured to be 1.07$ nuclear magnetons as discussed by the authors, and the lifetime of a nuclear magnet was shown to be 0.76 ± 0.05.