R. White-Stevens
University of Notre Dame
Network
Latest external collaboration on country level. Dive into details by clicking on the dots.
Publication
Featured researches published by R. White-Stevens.
Physical Review Letters | 2000
E. F. Aguilera; J. J. Kolata; F.M. Nunes; F. D. Becchetti; Paul DeYoung; Matthew J. Goupell; V. Guimarães; B. Hughey; M. Y. Lee; D. Lizcano; E. Martinez-Quiroz; A. Nowlin; T.W. O'Donnell; Graham F. Peaslee; D. Peterson; P. Santi; R. White-Stevens
Reaction products from the interaction of 6He with 209Bi have been measured at energies near the Coulomb barrier. A 4He group of remarkable intensity, which dominates the total reaction cross section, has been observed. The angular distribution of the group suggests that it results primarily from a direct nuclear process. It is likely that this transfer and/or breakup channel is the doorway state that accounts for the previously observed large sub-barrier fusion enhancement in this system.
Physical Review Letters | 2000
V. Guimarães; J. J. Kolata; D. Peterson; P. Santi; R. White-Stevens; S. M. Vincent; F. D. Becchetti; M. Y. Lee; T.W. O'Donnell; D. A. Roberts; J.A. Zimmerman
The angular distribution for the breakup of 8B-->7Be+p on a 58Ni target has been measured at an incident energy of 25.75 MeV. The data are inconsistent with first-order theories but are remarkably well described by calculations including higher-order effects. The comparison with theory illustrates the importance of the inclusion of the exotic proton halo structure of 8B in accounting for the data.
Physical Review Letters | 1999
V. Guimarães; J. J. Kolata; D. Peterson; P. Santi; R. White-Stevens; S. M. Vincent; F. D. Becchetti; M. Y. Lee; T.W. O'Donnell; D. A. Roberts; J.A. Zimmerman
The angular distribution for the breakup of 8B-->7Be+p on a 58Ni target has been measured at an incident energy of 25.75 MeV. The data are inconsistent with first-order theories but are remarkably well described by calculations including higher-order effects. The comparison with theory illustrates the importance of the inclusion of the exotic proton halo structure of 8B in accounting for the data.
Physical Review Letters | 1998
J. J. Kolata; M. Y. Lee; Paul DeYoung; M. Kern; D. Peterson; E. F. Aguilera; E. Martinez-Quiroz; B. Atalla; F. D. Becchetti; B. Hughey; P.L. Jolivette; J. Hinnefeld; R. White-Stevens; P. Santi; V. Guimarães; Graham F. Peaslee; J.A. Zimmerman
Physical Review C | 2003
P. Santi; J. J. Kolata; V. Guimarães; D. Peterson; R. White-Stevens; E. Rischette; D. Bazin; B. M. Sherrill; A. Navin; Paul DeYoung; P.L. Jolivette; Graham F. Peaslee; R.T. Guray
Physical Review C | 2001
J. J. Kolata; T.W. O'Donnell; D. Peterson; J. A. Zimmerman; D. A. Roberts; F. D. Becchetti; M. Y. Lee; S. M. Vincent; P. Santi; V. Guimarães; R. White-Stevens
Physical Review C | 2000
Paul DeYoung; B. Atallah; B. Hughey; P.L. Jolivette; M. Kern; Graham F. Peaslee; V. Guimarães; J. J. Kolata; D. Peterson; P. Santi; R. White-Stevens; E. F. Aguilera; E. Martinez-Quiroz; F. D. Becchetti; M. Y. Lee
Physical Review C | 2000
Y. Iwata; K. Ieki; A. Galonsky; J. J. Kruse; Jimmy Wang; R. White-Stevens; E. Tryggestad; P. D. Zecher; Ferenc Deák; Ákos Horváth; A. Kiss; Z. Seres; J. J. Kolata; J. von Schwarzenberg; R. E. Warner; H. Schelin
Physical Review C | 1998
J. J. Kolata; V. Guimarães; D. Peterson; P. Santi; R. White-Stevens; J. von Schwarzenberg; J. Hinnefeld; E. F. Aguilera; E. Martinez-Quiroz; D. A. Roberts; F. D. Becchetti; M. Y. Lee; R. A. Kryger
Physical Review C | 1998
J. J. Kolata; V. Guimarães; D. Peterson; P. Santi; R. White-Stevens; J. von Schwarzenberg; J. Hinnefeld; E. F. Aguilera; E. Martinez-Quiroz; D. A. Roberts; F. D. Becchetti; M. Y. Lee; R. A. Kryger
