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Featured researches published by T.N. Taddeucci.
Physical Review C | 1997
T.N. Taddeucci; J. L. Ullmann; L. Rybarcyk; G. W. Butler; Tomas E. Ward
Activation techniques have been used to measure the total cross section for the production of {sup 7}Be, {sup 22}Na, and {sup 24}Na in proton induced reactions on {sup 7}Li and {sup 27}Al targets at bombarding energies of 495 MeV and 795 MeV. The cross section for the {sup 7}Li(p,n){sup 7}Be(g.s.+0.43-MeV) reaction at 795 MeV is about 11{endash}15{percent} larger than extrapolations based on previous data below 480 MeV. {copyright} {ital 1997} {ital The American Physical Society}
Physical Review C | 1997
T.N. Taddeucci; J. L. Ullmann; L. Rybarcyk; G. W. Butler; Tomas E. Ward
Activation techniques have been used to measure the total cross section for the production of {sup 7}Be, {sup 22}Na, and {sup 24}Na in proton induced reactions on {sup 7}Li and {sup 27}Al targets at bombarding energies of 495 MeV and 795 MeV. The cross section for the {sup 7}Li(p,n){sup 7}Be(g.s.+0.43-MeV) reaction at 795 MeV is about 11{endash}15{percent} larger than extrapolations based on previous data below 480 MeV. {copyright} {ital 1997} {ital The American Physical Society}
Physical Review C | 1997
T.N. Taddeucci; L. Rybarcyk; G. W. Butler; Tomas E. Ward; J. L. Ullmann
Activation techniques have been used to measure the total cross section for the production of {sup 7}Be, {sup 22}Na, and {sup 24}Na in proton induced reactions on {sup 7}Li and {sup 27}Al targets at bombarding energies of 495 MeV and 795 MeV. The cross section for the {sup 7}Li(p,n){sup 7}Be(g.s.+0.43-MeV) reaction at 795 MeV is about 11{endash}15{percent} larger than extrapolations based on previous data below 480 MeV. {copyright} {ital 1997} {ital The American Physical Society}
Physical Review Letters | 1985
D. Krofcheck; C. C. Foster; D.J. Horen; John N. Bahcall; T.N. Taddeucci; C. Gaarde; E. Sugarbaker; D. Wang; C.D. Goodman; J. Rapaport; I. J. van Heerden; R.C. Byrd; S.J. Larsen
Physical Review Letters | 1994
T.N. Taddeucci; B. Luther; L. Rybarcyk; R.C. Byrd; J. B. McClelland; D. L. Prout; S. DeLucia; D. Cooper; D. Marchlenski; E. Sugarbaker; B.K. Park; Thomas Sams; C.D. Goodman; J. Rapaport; M. Ichimura; K. Kawahigashi
Physical Review C | 1995
D. L. Prout; C.D. Zafiratos; T.N. Taddeucci; J. L. Ullmann; R.C. Byrd; T. A. Carey; P. W. Lisowski; J. B. McClelland; L. Rybarcyk; Sailor Wc; Amian W; Braunstein M; David A. Lind; Mercer Dj; Cooper D; S. DeLucia; B. Luther; D. Marchlenski; E. Sugarbaker; J. Rapaport; B.K. Park; Gülmez E; C.A. Whitten; C.D. Goodman; Huang W; D. Ciskowski; William P. Alford
Physical Review Letters | 1985
C.D. Goodman; R.C. Byrd; I. J. van Heerden; T. A. Carey; D.J. Horen; J. S. Larsen; C. Gaarde; J. Rapaport; T. P. Welch; E. Sugarbaker; T.N. Taddeucci
Physical Review Letters | 1985
J. Rapaport; Welch P; John N. Bahcall; E. Sugarbaker; T.N. Taddeucci; C.D. Goodman; Foster Cf; D.J. Horen; C. Gaarde; J. S. Larsen; T.G. Masterson
Physical Review C | 1982
T.N. Taddeucci; C.C. Foster; D.E. Bainum; T. Masterson; J.S. Larsen; D.J. Horen; C. Gaarde; E. Sugarbaker; C.D. Goodman; J. Rapaport; C.A. Goulding
Physical Review Letters | 1993
Mercer Dj; T.N. Taddeucci; L. Rybarcyk; Chen Xy; D. L. Prout; R.C. Byrd; J. B. McClelland; Sailor Wc; S. DeLucia; B. Luther; D. Marchlenski; E. Sugarbaker; Gülmez E; C.A. Whitten; C.D. Goodman; Rapaport J
