K. K. Sekharan
University of Kentucky
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Publication
Featured researches published by K. K. Sekharan.
Physical Review C | 1972
Jack Egan; K. K. Sekharan; G.C. Dutt; J. E. Wiest; F. Gabbard
The 2.335-MeV isobaric analog resonance in
Physical Review C | 1978
B. D. Kern; F. Gabbard; R.G. Kruzek; M. R. McPherson; K. K. Sekharan; Franklin D. Snyder
^{51}\mathrm{V}(p,n)^{51}\mathrm{Cr}
Physical Review C | 1972
F. Gabbard; Gary Milo Chenevert; K. K. Sekharan
and
Physical Review C | 1972
F. Gabbard; Gary Milo Chenevert; K. K. Sekharan
^{51}\mathrm{V}(p,p)^{51}\mathrm{V}
Physical Review C | 1978
B. D. Kern; F. Gabbard; R.G. Kruzek; K. K. Sekharan; Franklin D. Snyder; M. R. McPherson
was studied experimentally. Detailed analysis was not possible because of the complexity of the excitation function in this energy region.
Physical Review C | 1972
F. Gabbard; Gary Milo Chenevert; K. K. Sekharan
^{51}\mathrm{V}(p,n)^{51}\mathrm{Cr}
Physical Review C | 1978
B. D. Kern; F. Gabbard; R. G. Kruzek; M. R. McPherson; K. K. Sekharan; Franklin D. Snyder
angular distributions at 4.013- and 5.016-MeV bombarding energies were analyzed via statistical-model formalism. 12 states in
Physical Review C | 1978
D.S. Flynn; K. K. Sekharan; B. A. Hiller; Helmut Laumer; J. L. Weil; Fletcher Gabbard
^{51}\mathrm{Cr}
Physical Review C | 1978
D.S. Flynn; K. K. Sekharan; B. A. Hiller; Helmut Laumer; J. L. Weil; Fletcher Gabbard
were observed up to an excitation energy of 2.39 MeV. The
Physical Review C | 1978
B. D. Kern; Fletcher Gabbard; R. G. Kruzek; M. R. McPherson; K. K. Sekharan; Franklin D. Snyder
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