Abstract
The dependence with energy and target mass of friction coefficients $K$ deduced from $^{16}\mathrm{O}$-induced reaction data are analyzed within the one-body energy dissipation formalism. The observed systematics for $K$ are explained as arising from changes in the effective reaction geometry. A unified expression for the angular distributions of the projectilelike products from these reactions is deduced.NUCLEAR REACTIONS $X(^{16}\mathrm{O}, Y)$, $X=^{12}\mathrm{C}, ^{27}\mathrm{Al}, ^{60}\mathrm{Ni}, ^{208}\mathrm{Pb}$, $Y=\mathrm{projectilelike}$ fragments ($Z=3\ensuremath{-}9$), $E=100\ensuremath{-}315$ MeV. Dependence of frictional coefficients on target mass and $E$ studied. Mass-flow rate deduced. Unified expression for slopes of $\ensuremath{\sigma}(E, Z, \ensuremath{\theta})$ found.
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