Abstract
Heavy ion reactions at intermediate energies are mostly described by the Vlasov-Ulenbek-Uling equation. Using methods of quantum kinetics a useful relation between the frequency integrated width of s.p. states and the static correlation function is derived. Near the point of instability from this relation follows the increase of the collision integral and enhanced equilibration. 7 refs.
Citation Formats
Muenchow, L.
Determination of the nuclear density correlation function in heavy ion reactions.
USSR: N. p.,
1990.
Web.
Muenchow, L.
Determination of the nuclear density correlation function in heavy ion reactions.
USSR.
Muenchow, L.
1990.
"Determination of the nuclear density correlation function in heavy ion reactions."
USSR.
@misc{etde_10105469,
title = {Determination of the nuclear density correlation function in heavy ion reactions}
author = {Muenchow, L}
abstractNote = {Heavy ion reactions at intermediate energies are mostly described by the Vlasov-Ulenbek-Uling equation. Using methods of quantum kinetics a useful relation between the frequency integrated width of s.p. states and the static correlation function is derived. Near the point of instability from this relation follows the increase of the collision integral and enhanced equilibration. 7 refs.}
place = {USSR}
year = {1990}
month = {Dec}
}
title = {Determination of the nuclear density correlation function in heavy ion reactions}
author = {Muenchow, L}
abstractNote = {Heavy ion reactions at intermediate energies are mostly described by the Vlasov-Ulenbek-Uling equation. Using methods of quantum kinetics a useful relation between the frequency integrated width of s.p. states and the static correlation function is derived. Near the point of instability from this relation follows the increase of the collision integral and enhanced equilibration. 7 refs.}
place = {USSR}
year = {1990}
month = {Dec}
}