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Main part «ansatz»
Main part «ansatz» is at the very heart of the solution of the
partial differential equations: using the available information on the
target system and the reference system it implements a finite
difference scheme on largely [17, 19] arbitrary grids. It is
this main part where all the physical approximations are combined to
jointly define a computational model of HRT for the system at hand.
For a detailed discussion of this main part, see [17, 19].
The following versions are provided:
- Version 20010313-ar
(file iso.arfg/.ansatz.arfg/20010313-ar)
- RPA closure (no core condition), partial differential equation;
cf. [17, 18, 19]
- Version 20010420-ar
(file iso.arfg/.ansatz.arfg/20010420-ar)
- LOGA/ORPA-like closure, decoupling assumption in core condition,
partial differential equation; cf. [17, 18, 19]
- Version 20010504-ar
(file iso.arfg/.ansatz.arfg/20010504-ar)
- LOGA/ORPA-like closure, consistent application of the decoupling
assumption, consequently ordinary differential equations; cf. [17, 18, 19]
- Version 20010720-ar
(file iso.arfg/.ansatz.arfg/20010720-ar)
- LOGA/ORPA-like closure, decoupling in core condition for
intermediate densities, RPA condition at high density boundary,
partial differential equation; cf. [17, 18, 19]
- Version 20020824-ar
(file iso.arfg/.ansatz.arfg/20020824-ar)
- Like version 20010313-ar (RPA closure (no core
condition), partial differential equation), but with a low density
boundary at arbitrary non-vanishing density.
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