Provides analytical steady-state solutions to a system of masses and springs driven by white noise.
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Updated
Feb 9, 2018 - Python
Provides analytical steady-state solutions to a system of masses and springs driven by white noise.
Code to simulate local calcium dynamics in ER-PM junctions during store operated calcium entry. This MATLAB code was used to make the figures presented at FASEB Calcium and Cell Function, Lake Tahoe 2018
Green's function methods using auxiliary space
Use our online tool to automatically calculate Green's functions for nonhomogeneous differential equations!
Commonly used Green's function in geoscience
This is the calculation program of quasi-periodic Green's function for the Helmholtz equations. The quasi-periodicity is 1-dimension ( x component only ), Green's function is 3-dimensions.
This is the calculation program of quasi-periodic Green's function for the Helmholtz equations. The quasi-periodicity is 2-dimensions ( z component is zero ), Green's function is 3-dimensions.
This is the calculation program of quasi-periodic Green's function for the Helmholtz equations. The quasi-periodicity is 1-dimension ( x component only ), Green's function is 2-dimensions.
A TUD seminar talk about GW methods
Sparse modeling tool for analytical continuation of imaginary-time Green's function
Open-source database and software for intermediate-representation basis functions of imaginary-time Green's function
Matrix classes for matrices that are block-tridiagonal and sparse, and simply "block sparse". These talk together, and furthermore containts an algorithm for inversion of the block-tridiagonal version. Much faster than the numpy and scipy equivalents when a particular matrix is block tridiagonal and large enough.
Generation of all possible electron-electron interaction Green's function corrections, and reduction into irreducible Feynman diagrams
Collection of tools for condensed matter computational physics.
Green's function DSL
Non-Equilibrium Green's function approach for quantum transport
Utilising python for tight-binding simulations of electron transmission in Nanoporous Graphene Devices
Generation of all possible electron-phonon interaction Green's function corrections, and reduction into irreducible Feynman diagrams
SEISGEN is a python package to acquire and generate the Greens function and synthetic waveform from the stored receiver-side 3D database including the Strain Greens Tensor (SGT) database and the (displacement) Greens function (DGF) database.
Exact diagonalization for finite quantum systems
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