Abstract
The Coulomb dissociation of ${}^{8}\mathrm{B}$ on high-$Z$ targets can be described by first-order perturbation theory at high beam energies but the far-field approximation, which is commonly used, becomes inaccurate at impact parameters less than $\ensuremath{\sim}25\mathrm{fm}.$ The leading-order correction at lower beam energies is a dynamic polarization effect, which reduces the dissociation probability. The relative significance of the effect scales roughly as $Z/E$ in terms of the target charge Z and beam energy E. The reduction due to a destructive Coulomb-nuclear interference, on the other hand, is rather modest.
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