Enhancement of the relative (ΔS=1)/(ΔS=0) response ofat high excitation energies
- 8 June 1987
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review Letters
- Vol. 58 (23) , 2404-2407
- https://doi.org/10.1103/physrevlett.58.2404
Abstract
Spin-flip probabilities have been measured for inelastic proton scattering from at 319 MeV at angles between 3° and 12° and excitation energies up to about 40 MeV. These data can be directly related to the relative [(spin transfer)/(no spin transfer)] nuclear response via one model-dependent variable. Nuclear spin excitations appear relatively suppressed at low excitation energies but surprisingly enhanced at the highest excitation energies at intermediate angles. Many features of the data can be explained with a slab nuclear response with random-phase-approximation correlations.
Keywords
This publication has 10 references indexed in Scilit:
- Gamow-Teller and spin-dipole strength in the 40,48Ca(p,n) reactions at 135 MeVPhysics Letters B, 1986
- Quasielastic proton-nucleus scattering at300–800MeVPhysical Review C, 1986
- Microscopic analysis of -spin-flip spectra at E = 319 MeVPhysics Letters B, 1986
- Relativistic effects on spin observables in quasielastic proton scatteringPhysical Review C, 1986
- Spin-flip decomposition of the spectrum forZr90(p,n) atEp=160MeVPhysical Review C, 1986
- Spin observables in quasi-elastic proton-nucleus scattering near 1 GeVPhysical Review C, 1985
- Fine Structure and Spin Excitations in the Giant Resonance Region ofPhysical Review Letters, 1983
- Nucleon-nucleon partial-wave analysis to 1 GeVPhysical Review D, 1983
- Gamow-Teller strength at high excitationsPhysical Review C, 1982
- Forward-angle inelastic scatteringPhysical Review C, 1982