D. Beatty
Rutgers University
11 Papers
25 Citations
D. Beatty is an academic researcher from Rutgers University. The author has contributed to research in topics: Scattering & Inelastic scattering. The author has an hindex of 5, co-authored 11 publications.
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Papers
The nuclear spin response to intermediate energy protons
F. T. Baker,L. Bimbot,B. Castel,R.W. Fergerson,Charles Glashausser,A. Green,O. Häusser,O. Häusser,K.H. Hicks,K.W Jones,C. A. Miller,S. Nanda,R. D. Smith,Michel Vetterli,J. Wambach,J. Wambach,R. Abegg,D. Beatty,V. R. Cupps,Chaden Djalali,R.S. Henderson,R.S. Henderson,K. P. Jackson,R. Jeppeson,J. Lisantti,M. Morlet,R. Sawafta,W. Unkelbach,A. Willis,S. Yen +29 more
TL;DR: In this paper, the spin-flip probability S nn for inelastic proton scattering around 300 MeV from nuclei between 12 C and 90 Zr was measured for 40 Ca at 800 MeV and 44 Ca up to 75 MeV.
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Separation of Delta S=0 and Delta S=1 in the response of 12C to 318 MeV protons.
F. T. Baker,D. Beatty,L. Bimbot,V. R. Cupps,C. Djalali,R. W. Fergerson,C. Glashausser,G. Graw,Angie Green,K. L. Jones,M. Morlet,S. Nanda,A. Sethi,B. H. Storm,W. Unkelbach,A. Willis +15 more
TL;DR: In this article, the double-differential cross section of the spin-flip probability was measured for inclusive inelastic proton scattering from an excitation energy range of 9 MeV to 42 MeV for laboratory scattering angles of 3, 5, 6, 7, 9, 12, 15, 18, and 18 degrees.
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Spin decomposition of the responses of Ca-44 and Ca-48 to 300 MeV protons
F. T. Baker,L. Bimbot,R. W. Fergerson,C. Glashausser,Angie Green,O. Häusser,K. Hicks,K. L. Jones,C. A. Miller,Michel Vetterli,R. Abegg,D. Beatty,B. Bonin,B. Castel,X.Y. Chen,V. R. Cupps,C. Djalali,R. Henderson,K. P. Jackson,R. Jeppesen,K. Nakayama,S. Nanda,R. Sawafta,S. Yen +23 more
TL;DR: In this paper, the spin-flip probability of the double-differential cross-section of a proton inelastic scattering from {sup 44} to {sup 48} Ca was measured.
Spin-longitudinal and spin-tranverse response of 40Ca to 500 MeV protons at low momentum transfer.
A. Green,W. Unkelbach,F. T. Baker,D. Beatty,L. Bimbot,X.Y. Chen,V. R. Cupps,C. Djalali,G.W.R. Edwards,R. W. Fergerson,C. Glashausser,K. W. Jones,M. K. Jones,G. J. Kumbartzki,A. Sethi,B. H. Storm,Jochen Wambach +16 more
TL;DR: A complete set of diagonal spin-transfer observables has been measured and unequal enhancements relative to free nucleon-nucleon scattering values are explained by a distorted-wave impulse approximation calculation in which the finite nucleus random-phase approximation is used to describe the nuclear respose.
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Comparison of Schrödinger and Dirac coupled-channels analyses of the 28Si(p,p')28Si reaction at 500 MeV.
R. de Swiniarski,D. Beatty,E. Donoghue,R. W. Fergerson,M. A. Franey,M. Gazzaly,C. Glashausser,Norton M. Hintz,K. W. Jones,J. B. McClelland,S. Nanda,M. Plum +11 more
TL;DR: In this paper, the Schr\"odinger and Dirac equation phenomenological coupled-channels methods have been used for elastic and inelastic scattering of 500-MeV protons.
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