A. Sethi
University of Minnesota
8 Papers
41 Citations
A. Sethi is an academic researcher from University of Minnesota. The author has contributed to research in topics: Scattering & Nuclear reaction. The author has an hindex of 4, co-authored 8 publications.
Chat about Author
Papers
Inelastic proton scattering from Pt isotopes and the interacting boson model.
A. Sethi,Norton M. Hintz,D. Mihailidis,A. M. Mack,M. Gazzaly,K. W. Jones,G. Pauletta,L. Santi,D. Goutte +8 more
TL;DR: It is found that although the {ital E}2 properties of these nuclei are consistent with the interacting boson model ({ital sd}) predictions, higher degrees of freedom, e.g., {ital g} ({ital L}=4) bosons, need to be invoked in order to get a reasonable agreement with the measured {ITAL E}4 properties.
22
Measurement of spin observables in the 28Si(p
E. Donoghue,C. Glashausser,Norton M. Hintz,A. Sethi,J. R. Shepard,R. W. Fergerson,M. A. Franey,M. Gazzaly,K. L. Jones,J. B. McClelland,S. Nanda,M. Plum +11 more
TL;DR: In this article, the relativistic (NRIA) and nonrelativistic impulse-approximation (RIA) calculations are compared with the data, and the differences between the two types of calculations are generally small.
16
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.
15
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.
9
Spin excitations in the {sup 40}Ca(p(vector sign),p(vector sign){sup '}) reaction revisited
F. T. Baker,L. Bimbot,G.W.R. Edwards,C. Glashausser,A. Green,K. W. Jones,D. Mihailidis,Dwight W. Read,A. Sethi,B. H. Storm,R. Deswiniarski +10 more
TL;DR: In this paper, double differential cross sections d{sup 2 sigma/d{omega}d{OMEga} and spin-flip probabilities S{sub nn} have been measured for the {sup 40}Ca(p(vector sign),p (vector sign){sup '}) reaction at E{sub p}=319 MeV.
3