Role of boundary conditions in dynamic studies of nuclear giant resonances and collisions

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P.-G. Reinhard,^1,2 P. D. Stevenson,^2,3 D. Almehed,³ J. A. Maruhn,^2,4 and M. R. Strayer⁵
¹Institut für Theoretische Physik II, Universität Erlangen-Nürnberg, Staudtstrasse 7, D-91058 Erlangen, Germany
²Joint Institute for Heavy-Ion Research, Oak Ridge National Laboratory, P. O. Box 2008, Oak Ridge, Tennessee 37831, USA
³Department of Physics, University of Surrey, Guildford, Surrey GU2 7XH, United Kingdom
⁴Institut für Theoretische Physik, Universität Frankfurt, Robert-Mayer-Strasse 8-10, D-60325 Frankfurt am Main, Germany
⁵Physics Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831-6373, USA

Received 8 June 2005; revised 3 January 2006; published 28 March 2006

Absorbingboundary conditions are often employed in time-dependent mean-field calculations tocope with the problem of emitted particles which would otherwisereturn back onto the system and falsify the dynamical evolution.We scrutinize two widely used methods, imaginary potentials and gradualattenuation by a mask function. To that end, we considerbreathing oscillations of a ¹⁶O nucleus computed on a radialone-dimensional grid in coordinate space. The most critical test caseis the computation of resonance spectra in the (linear) domainof small amplitude motion. Absorbing bounds turn out to providea reliable alternative to fully fledged continuum random phase approximation(RPA) calculations, although rather large absorbing bounds are required tosimulate reliably well continuum conditions. We also investigate the computationof observables in the nonlinear domain. This regime turns outto be less demanding. Smaller absorbing margin suffice to achievethe wanted absorption effect.

URL:	http://link.aps.org/doi/10.1103/PhysRevE.73.036709
DOI:	10.1103/PhysRevE.73.036709
PACS:	02.70.-c; 21.60.Jz 02.70.-c Computational techniques 21.60.Jz Hartree-Fock and random-phase approximations in nuclei YEAR: 2006
KEYWORDS:	giant resonances, heavy ion-nucleus reactions, nuclei with mass number 6 to 19, nuclear field theory, RPA calculations

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