Paul-Gerhard Reinhard
University of Erlangen-Nuremberg
656 Papers
2.5K Citations
Paul-Gerhard Reinhard is an academic researcher from University of Erlangen-Nuremberg. The author has contributed to research in topics: Dipole & Cluster (physics). The author has an hindex of 64, co-authored 642 publications. Previous affiliations of Paul-Gerhard Reinhard include University of Virginia & Joint Institute for Nuclear Research.
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Papers
Error Estimates of Theoretical Models: a Guide
Jacek Dobaczewski,Jacek Dobaczewski,Witold Nazarewicz,Witold Nazarewicz,Witold Nazarewicz,Paul-Gerhard Reinhard +5 more
TL;DR: In this article, a simple approach to statistical-error estimates, strategies to assess systematic errors, and how to uncover interdependences by correlation analysis are discussed, and the basic concepts are illustrated through simple examples.
Small metal clusters in a cylindrically averaged pseudopotential scheme
B. Montag,Paul-Gerhard Reinhard +1 more
TL;DR: The cylindrically averaged pseudopotential scheme (CAPS) as mentioned in this paper is based on a pseudo-propositional description for the ionic cores and the valence electrons in a metal.
Dissipative linear response in a fermion system
TL;DR: In this paper, the authors derive equations for the description of damped collective motion in fermion systems, and formally solve these equations in a series of successive, physically motivated iterations, in order to obtain the Brueckner-Fock theory for the stationary case and the random phase approximation with the BHF T -matrix as effective interaction.
Simplified implementation of self-interaction correction in sodium clusters
TL;DR: In this paper, various simplified implementations of self-interaction correction were derived in the framework of the so-called optimized effective potential method, leading to a single, orbital-independent xc potential.
Quantum Dissipative Dynamics (QDD): A real-time real-space approach to far-off-equilibrium dynamics in finite electron systems
Phuong Mai Dinh,Phuong Mai Dinh,Marc Vincendon,Marc Vincendon,François Coppens,François Coppens,Eric Suraud,Eric Suraud,Eric Suraud,Paul-Gerhard Reinhard +9 more
TL;DR: The novel feature of the QDD code is that it allows one to track the dissipative dynamics induced by dynamical correlations from the earliest times of excitation on at a fully quantum mechanical level within the Relaxation-Time Approximation (RTA).