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Two-Temperature and Thermal Plasma Kinetic Theories. [PDF]
Entropy (Basel)Giovangigli V.
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Elastic and inelastic heavy ion scattering
Physics Reports, 1978Abstract We present a detailed study of a representative set of elastic and inelastic heavy ion scattering data by means of a closed formalism that depends entirely on the properties of the elastic scattering matrix. This formalism, which gives an explicit representation of the essential features of optical model and distorted wave amplitudes ...
W.E. Frahn, K.E. Rehm
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Polarization potentials in heavy-ion scattering
Physics Reports, 1984Abstract A polarization potential is defined in terms of the Feshbach projection operator formalism to represent the effect upon the elastic channel of the coupling to non-elastic channels in heavy-ion scattering. The polarization potential represents coupling to specific surface degrees of freedom of the particular reaction considered and it is ...
Brett Carlson
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Heavy-ion inelastic scattering
Nuclear Physics A, 1977Abstract The 24Mg(16O, 16O'γ)24Mg(2+) reaction has been investigated at 42 MeV incident energy. In-plane (16O, γ) angular correlations were measured for outgoing 16O ions between 6° and 40°. The results are compared with DWBA and coupled channels calculations.
B.T. Chait, D. Sinclair
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Algebraic scattering theory for heavy ions
Physical Review Letters, 1990Algebraic potentials from SO(3,1) and SO(3,2) representations of scattering functions are deduced by matching to scattering functions obtained by fitting $^{12}\mathrm{\ensuremath{-}}^{12}$C elastic-scattering differential cross sections. Their variations with energy suggest a simple mapping between algebriac and coordinate-space interactions.
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Inelastic scattering of heavy ions
Physical Review C, 1975Angular distributions and excitation functions for elastic and inelastic scattering have been measured with $^{16}\mathrm{O}$, $^{18}\mathrm{O}$, and $^{32}\mathrm{S}$ projectiles on Ca, Ni, Mo, and Sn isotopes. The experimental data show oscillations in the angular distributions which are more pronounced for projectile excitations than for target ...
K. E. Rehm +5 more
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Inelastic scattering of heavy ions
Nuclear Physics, 1962Abstract Absolute inelastic excitation cross sections have been obtained in the reactions (C12, C12), (C12, O16), (O16, O16) and (N14, C12). The heavy ion beams used were the full energy (10.54 MeV per nucleon) beams from the Yale University heavy ion accelerator.
D.J. Williams, F.E. Steigert
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