Abstract: Dyadic Green's function (DGF) for the tensor surface conductivity boundary condition (TSCBC) is formulated in this paper. Electrically biased spatially dispersive graphene sheet, densely ...

Abstract: A new Green's function formulation is developed systematically for modeling general homogeneous (dielectric or magnetic) objects in a layered medium. The dyadic form of the Green's function ...

A Green's function approach is presented for the D-dimensional inverse square potential in quantum mechanics. This approach is implemented by the introduction of hyperspherical coordinates and the use ...

Department of Chemistry, New York University (NYU), New York, New York10003, United States Courant Institute of Mathematical Sciences, New York University (NYU), New York, New York10003, United States ...

grheat is a python module based on Green's function method for heat transfer problems in a semi-infinite medium. There are solutions for point sources, line sources, plane sources, and exponential ...

Department of Chemistry, University of Chicago, Chicago, Illinois 60637, United States Pritzker School of Molecular Engineering, University of Chicago, Chicago, Illinois 60637, United States Materials ...

In this paper, a quantum mechanical Green’s function for the quartic oscillator is presented. This result is built upon two previous papers: first [1], detailing the linearization of the quartic ...

The present work is devoted to define a generalized Green’s function solution for the dual-phase-lag model in homogeneous materials in a unified manner .The high-order mixed derivative with respect to ...

An illustration of a magnifying glass. An illustration of a magnifying glass.

The Green function method is applied to a system consisting of two spins which are coupled by exchange. The magnetization, the correlation function, the zero-field magnetic susceptibility, and the ...