Add to ORKGWe present linear response theories in the continuum capable of describing continuum spectra and dynamical correlations of finite systems with no spatial symmetry. Our formulation is essentially the same as the continuum random-phase approximation (RPA) but suitable for uniform grid representation in the three-dimensional (3D) Cartesian coordinate. Effects of the continuum are taken into account by solving equations iteratively with a retarded Green's function. The method is applied to photoabsorption spectra in small molecules (acetylene and ethylene) and inelastic electron scattering from a deformed nucleus 12C
The scattering of a weakly bound three-body system by a target is discussed. A transformed harmonic ...
The study of nonlinear phenomena in systems with many degrees of freedom often relies on complex num...
We develop further a new method for employing a set of real basis functions to represent the Green f...
Linear response theories in the continuum capable of describing continuum spectra and dynamical corr...
We present linear response theories in the continuum capable of describing photoionization spectra a...
The continuum random-phase approximation is extended to the one applicable to deformed nuclei. We pr...
We present that a linear response theory in the continuum can be easily formulated with Absorbing Bo...
Giant resonances in the continuum for deformed nuclei are studied with the time-dependent Hartree-Fo...
A continuum random phase approximation (RPA) method for evaluating the structure function of nuclear...
We investigate different methods for the treatment of continuum states in nuclear structure calculat...
Absorbing boundaries are frequently employed in real-time propagation of the Schrödinger equation to...
We describe, in detail, a basis set approach to the multichannel scattering problem. The full set of...
We present a local density approximation (LDA) for onedimensional systems in-teracting via softCoulo...
International audienceWe present calculations of the absorption spectrum of semiconductors and insul...
We present results for many-body perturbation theory for the one-body Green's function at finite te...
The scattering of a weakly bound three-body system by a target is discussed. A transformed harmonic ...
The study of nonlinear phenomena in systems with many degrees of freedom often relies on complex num...
We develop further a new method for employing a set of real basis functions to represent the Green f...
Linear response theories in the continuum capable of describing continuum spectra and dynamical corr...
We present linear response theories in the continuum capable of describing photoionization spectra a...
The continuum random-phase approximation is extended to the one applicable to deformed nuclei. We pr...
We present that a linear response theory in the continuum can be easily formulated with Absorbing Bo...
Giant resonances in the continuum for deformed nuclei are studied with the time-dependent Hartree-Fo...
A continuum random phase approximation (RPA) method for evaluating the structure function of nuclear...
We investigate different methods for the treatment of continuum states in nuclear structure calculat...
Absorbing boundaries are frequently employed in real-time propagation of the Schrödinger equation to...
We describe, in detail, a basis set approach to the multichannel scattering problem. The full set of...
We present a local density approximation (LDA) for onedimensional systems in-teracting via softCoulo...
International audienceWe present calculations of the absorption spectrum of semiconductors and insul...
We present results for many-body perturbation theory for the one-body Green's function at finite te...
The scattering of a weakly bound three-body system by a target is discussed. A transformed harmonic ...
The study of nonlinear phenomena in systems with many degrees of freedom often relies on complex num...
We develop further a new method for employing a set of real basis functions to represent the Green f...