M. L. Halbert
Oak Ridge National Laboratory
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Featured researches published by M. L. Halbert.
Nuclear Physics | 1975
J.B. Ball; C.B. Fulmer; E.E. Gross; M. L. Halbert; David C. Hensley; C.A. Ludemann; M.J. Saltmarsh; G.R. Satchler
Differential cross sections for elastic scattering of
Physics Letters B | 1988
J. Barrette; N. Alamanos; F. Auger; B. Fernandez; A. Gillibert; D.J. Horen; J.R. Beene; F.E. Bertrand; R.L. Auble; B. L. Burks; J. Gomez del Campo; M. L. Halbert; R.O. Sayer; W. Mittig; Y. Schutz; B. Haas; J.P. Vivien
sup 12
Nuclear Physics | 1963
M. L. Halbert; F.E. Durham; C.D. Moak; A. Zucker
C ions of 96 MeV,
Nuclear Physics | 1978
G.R. Satchler; M. L. Halbert; N.M. Clarke; E.E. Gross; C.B. Fulmer; A. Scott; D. Martin; M.D. Cohler; David C. Hensley; C.A. Ludemann; J. G. Cramer; M.S. Zisman; R.M. Devries
sup 16
Nuclear Physics | 1990
M.P. Carpenter; C. R. Bingham; L.H. Courtney; V.P. Janzen; A.J. Larabee; Z.-M. Liu; L. L. Riedinger; W. Schmitz; R. Bengtsson; T. Bengtsson; W. Nazarewicz; J.-Y. Zhang; J.K. Johansson; D.G. Popescu; J.C. Waddington; C. Baktash; M. L. Halbert; Noah R. Johnson; I.Y. Lee; Y. Schutz; J. Nyberg; A. Johnson; R. Wyss; J. Dubuc; G. Kajrys; S. Monaro; S. Pilotte; K. Honkanen; D. G. Sarantites; D. R. Haenni
O ions of 129.5 and 192 MeV, and
Nuclear Physics | 1976
M. L. Halbert; P.O. Tjøm; I. Espe; G.B. Hagemann; B. Herskind; M. Neiman; H. Oeschler
sup 20
Physics Letters B | 1974
M. L. Halbert; C.B. Fulmer; S. Raman; M.J. Saltmarsh; A.H. Snell; Paul H. Stelson
Ne ions of 161.2 MeV from
Physics Letters B | 1992
M. Thoennessen; J.R. Beene; F.E. Bertrand; C. Baktash; M. L. Halbert; D.J. Horen; D.C. Hensley; D. G. Sarantites; W. Spang; D.W. Stracener; R. L. Varner
sup 208
Physics Letters B | 1991
C. Baktash; G. Garcia-Bermudez; D. G. Sarantites; W. Nazarewicz; V. Abenante; J.R. Beene; H.C. Griffin; M. L. Halbert; D.C. Hensley; Noah R. Johnson; I.Y. Lee; F.K. McGowan; M. A. Riley; D.W. Stracener; T.M. Semkow; A. Virtanen
Pb were measured and analyzed using the optical model. Values of the real potential near the strong absorption radii were extracted and some constraints put on its slope. Some information on the slope of the imaginary potential in this region was also obtained, while the magnitude of the imaginary potential here was found to be comparable to that for the real potential. The scattering was found to be almost completely insensitive to the real or imaginary potential for center-of-mass separations less than approximately 10 fm. In addition to Woods--Saxon potentials, folded-model potentials were also used, and a consistent description of the present and other data was obtained with a Gaussian nucleon--nucleon interaction. It was found that a nucleon--nucleon interaction with a range as long as that for one-pion-exchange is unacceptable. (NL)
Physics Letters B | 1985
Mike Guidry; S. Juutinen; X.T. Liu; C. R. Bingham; A.J. Larabee; L. L. Riedinger; C. Baktash; I.Y. Lee; M. L. Halbert; D. Cline; B. Kotlinski; W.J. Kernan; T.M. Semkow; D. G. Sarantites; K. Honkanen; M. Rajagopalan
Abstract Inelastic scattering of 84 MeV/nucleon 17 O on 208 Pb has been measured between 1.5° ⩽ θ CM ⩽5.0°. The giant resonance structure near 12 MeV is excited with a differential cross section of more than 2b/sr and exhibits a peak-to-continuum ratio as large as 6 to 1. The major part of the cross section can be ascribed to Coulomb excitation of the isovector giant dipole and the giant quadrupole resonance. From the Coulomb excitation of the GQR we deduce a B (E2) fx = 0.53 ±0.11 e 2 b 2 which is that expected for a nearly pure isoscalar resonance which exhausts ≈ 60% of the EWSR.
