Green's functions and response functions in geochemical modelling

This paper presents yet another application, perhaps the simplest one, of the Closed Time Path Green's Function (hereafter abbreviated to CTPGF) technique to nonequilibrium problems. General expressions for nonlinear responses are derived using CTPGF. Various arguments leading to relations among hig

## Abstract In a series of conference and journal papers [1–3], Mei has laid the foundation of the theory of Maxwellian circuits, which asserts that any wire structure, such as a thin wire antenna or a microstrip device, can be represented by an equivalent circuit, the solution of which is identica

This paper provides details of a widely applicable technique of hybrid modelling of thermal and particle diffusion which can help to reduce computational load in explicit formulations. The undesirable effects of artificial boundaries, which are introduced when a simulation is truncated or when an ex

## Abstract Power moments for all of the reduced hydrogenic Green's functions have been computed. These moments have the same form as the corresponding moments of the free‐particle Green's functions. Green's functions of the second kind are defined, and uses for these objects in model potential the

The generating functional of the lsing model is studied. Equations of motion for the generating functional and the hierarchy of Green's functions are derived. These equations resemble a scalar field theory with nonlinear derivative coupling. Such a formulation bridges the gap between the Ising model