A. H. Wuosmaa
University of Pennsylvania
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Featured researches published by A. H. Wuosmaa.
Physical Review C | 1985
G. P. Gilfoyle; L. C. Bland; R. Gilman; M. Carchidi; Kalvir S. Dhuga; J. W. Sweet; A. H. Wuosmaa; G. Stephans; R. W. Zurmühle; H. T. Fortune
Complete angular distributions (theta/sub c.m./ = 9/sup 0/--90/sup 0/) for the reaction /sup 13/C( /sup 13/C,..cap alpha..) /sup 22/ Ne in the energy range E/sub c.m./ = 6.25--13.38 MeV have been measured. The data exhibit significant resonancelike behavior and a portion of it has been fitted to extract the amplitudes and phases of the relevant l values with two methods. The first uses a least-squares procedure to fit the angular distributions to a linear sum of Legendre polynomials while the second makes a grid search to find a best fit to an amplitude squared equation.
Physical Review C | 1985
G. P. Gilfoyle; L. C. Bland; R. Gilman; M. Carchidi; K.S. Dhuga; J. W. Sweet; A. H. Wuosmaa; G.S.F. Stephans; R. W. Zurmühle; H. T. Fortune
Complete angular distributions (theta/sub c.m./ = 9/sup 0/--90/sup 0/) for the reaction /sup 13/C( /sup 13/C,..cap alpha..) /sup 22/ Ne in the energy range E/sub c.m./ = 6.25--13.38 MeV have been measured. The data exhibit significant resonancelike behavior and a portion of it has been fitted to extract the amplitudes and phases of the relevant l values with two methods. The first uses a least-squares procedure to fit the angular distributions to a linear sum of Legendre polynomials while the second makes a grid search to find a best fit to an amplitude squared equation.
Physical Review C | 1985
G. P. Gilfoyle; L. C. Bland; R. Gilman; M. Carchidi; K.S. Dhuga; J. W. Sweet; A. H. Wuosmaa; G.S.F. Stephans; R.W. Zurmuehle; H. T. Fortune
Complete angular distributions (theta/sub c.m./ = 9/sup 0/--90/sup 0/) for the reaction /sup 13/C( /sup 13/C,..cap alpha..) /sup 22/ Ne in the energy range E/sub c.m./ = 6.25--13.38 MeV have been measured. The data exhibit significant resonancelike behavior and a portion of it has been fitted to extract the amplitudes and phases of the relevant l values with two methods. The first uses a least-squares procedure to fit the angular distributions to a linear sum of Legendre polynomials while the second makes a grid search to find a best fit to an amplitude squared equation.
Physical Review C | 1984
K.S. Dhuga; H. T. Fortune; M. Carchidi; G. P. Gilfoyle; R. Gilman; J. W. Sweet; A. H. Wuosmaa
In the c.m. energy region 13--15 MeV, the l = 10 partial wave dominates the cross section for /sup 12/C(/sup 12/C, ..cap alpha..) /sup 20/Ne(g.s.), frequently contributing more than 90% of the total cross section.
Physical Review C | 1984
Kalvir S. Dhuga; H. T. Fortune; M. Carchidi; G. P. Gilfoyle; R. Gilman; J. W. Sweet; A. H. Wuosmaa
In the c.m. energy region 13--15 MeV, the l = 10 partial wave dominates the cross section for /sup 12/C(/sup 12/C, ..cap alpha..) /sup 20/Ne(g.s.), frequently contributing more than 90% of the total cross section.
Physical Review C | 1990
A. H. Wuosmaa; R. W. Zurmühle; P. H. Kutt; S. F. Pate; S. Saini; M. L. Halbert; D.C. Hensley
Physical Review C | 1990
S. Mordechai; H. T. Fortune; O'Donnell Jm; G.-B. Liu; M. Burlein; A. H. Wuosmaa; Steven J. Greene; C. L. Morris; N. Auerbach; S.H. Yoo; C. F. Moore
Physical Review C | 1989
S. Mordechai; Auerbach N; Greene S; C. L. Morris; J.M. O'Donnell; H.T. Fortune; Liu G; Burlein M; A. H. Wuosmaa; Yoo Sh; Moore Cf
Physical Review C | 1987
A. H. Wuosmaa; S. Saini; P. H. Kutt; S. F. Pate; R. W. Zurmühle; R.R. Betts
Physical Review C | 1988
S. F. Pate; R. W. Zurmühle; P. H. Kutt; A. H. Wuosmaa
