/fmps

Fast multi-particle (FMPS) solver

Primary LanguageFortranOtherNOASSERTION

This is the third public release of the fast multi-particle (FMPS) solver.
Date: April 13, 2012

Version 3.0 

%% Copyright (C) 2010-2012: Leslie Greengard and Zydrunas Gimbutas
%% Contact: greengard@cims.nyu.edu
%% 
%% This program is free software; you can redistribute it and/or modify 
%% it under the terms of the GNU General Public License as published by 
%% the Free Software Foundation; either version 2 of the License, or 
%% (at your option) any later version.  This program is distributed in 
%% the hope that it will be useful, but WITHOUT ANY WARRANTY; without 
%% even the implied warranty of MERCHANTABILITY or FITNESS FOR A 
%% PARTICULAR PURPOSE.  See the GNU General Public License for more 
%% details. You should have received a copy of the GNU General Public 
%% License along with this program; 
%% if not, see <http://www.gnu.org/licenses/>.

%% examples/fmps-3.0-mi - contributed by Maxim Ignatenko (KSU)



fmps/ - Fast multiparticle EM solver: matlab scripts and mex files 
muller/ - Muller solver: evaluate the scattering matrix for a single particle

examples/ - testing drivers and scripts for the FMPS solver
examples/fmps-3.0-mi - alternative testing drivers and scripts 
examples/mie - Mie scattering tests

examples/aqctri - triangulation library
examples/iterate - iterative solver library

src/ - Fortran source code
contrib/mwrap-0.33.3/ - mwrap source code


Matlab
======

% FMPS - Fast multiparticle scattering in R^3.
%
% EM multiparticle scattering in R^3.
%   fmps - EM multiparticle scattering solver.
%   fmps_scan - EM multiparticle scattering solver, frequency scan.
%   fmps_b - EM multiparticle scattering solver (+big sphere).
%   gold_jc_data - Johnson-Christy gold parameters.
%
% EM multiparticle scattering in R^3. Postprocessors.
%   fmps_post_geom - Plot inclusions and enclosing spheres.
%   fmps_post_far - Plot the far field signature.
%   fmps_post_field - Plot the total and incoming E fields on all spheres.
%
% Matrix multiplication routines.
%   em3d_multa_fmps - EM multisphere solver main multiplication routine.
%   em3d_multa_mpta - EM multipole to local translation routine (Matlab+F90).
%   em3d_multa_mptaf90 - EM multipole to local translation routine (F90).
%   em3d_multa_mptafmm - EM multipole to local translation routine (FMM).
%   em3d_multa_r    - Apply reflection matrices.
%   em3d_multa_mpta_b - EM multipole to local translation (+big sphere).
%
% Reflection coefficient evaluation routines.  
%   rcoefs_die_arb - Reflection coefficients for a dielectric sphere.
%   rcoefs_pec - Reflection coefficients for a PEC sphere.
%   rcoefs_pmc - Reflection coefficients for a PMC sphere.
%   rmatr_diag - Construct the diagonally scaled reflection matrix.
%   rmatr_file - Retrieve the reflection matrix from a file.
%   rcoefs_die_arb_coated - Reflection coefficients for a coated sphere.
%   rcoefs_pec_coated - Reflection coefficients for a coated PEC sphere.
%
% Reflection and transmission coefficient for a dielectric sphere.
%   rcoefs_die_arb21 - Reflection coefficients for incoming wave.
%   rcoefs_die_arb12 - Reflection coefficients for outgoing wave.
%   tcoefs_die_arb21 - Transmission coefficients for incoming wave.
%   tcoefs_die_arb12 - Transmission coefficients for outgoing wave.
%
% FMPS solver library functions.
%   e3fgrid - Construct a spherical grid in R^3.
%   get_e3fgrid - Construct a spherical grid structure in R^3.
%   get_e3fgrid_trunc - Construct a truncated spherical grid in R^3.
%
%   em3ehformmp - Form EM multipole from E,H values on a spherical grid.
%   em3ehformta - Form EM local multipole from E,H values on a spherical grid.
%   em3mpevaleh - Evaluate EM multipole on a spherical grid.
%   em3taevaleh - Evaluate EM local multipole on a spherical grid.
%   em3mpfareh - Evaluate the far field signature of the outgoing EM multipole.
%
%   em3linsph - Convert multipole expansion from linear format into unrolled.
%   em3sphlin - Convert multipole expansion from unrolled format into linear.
%
%   em3mpmp3 - Apply EM multipole to multipole translation operator.
%   em3mpta3 - Apply EM multipole to local translation operator.
%   em3tata3 - Apply EM local to local translation operator.
%
%   em3mpmp3_trunc - Apply EM multipole to multipole translation operator.
%   em3tata3_trunc - Apply EM local to local translation operator.
%
%   green3e - Evaluate the dyadic electric Green's function (Matlab).
%   green3m - Evaluate the dyadic magnetic Green's function (Matlab).
%   em3dipole3et - Evaluate E and H fields due to the electric dipole (Matlab).
%   em3dipole3mt - Evaluate E and H fields due to the magnetic dipole (Matlab).
%   dipole3et - Evaluate E and H fields due to the electric dipole (F90).
%   dipole3mt - Evaluate E and H fields due to the magnetic dipole (F90).
%
%   emhevalrt - Spherical Bessel h functions (F90).
%   emjevalrt - Spherical Bessel j functions (F90).
%   em3hevalrt - Spherical Bessel h functions (Matlab).
%   em3jevalrt - Spherical Bessel j functions (Matlab).
%
%   em3d_mpole_targeval - Evaluate EM multipoles at a collection of targets.
%   em3d_planearb_targeval - Evaluate an arbitrary plane wave at the targets.
%   empol - Evaluate electric polarization and magnetization vectors (single).
%   empolms - Evaluate electric polarization and magnetization vectors.
%
%   em3formmp - Form the outgoing EM multipole expansion.
%   em3formta - Form the incoming EM multipole expansion.
%   em3mpeval - Evaluate outgoing EM multipole expansion at a single target.
%   em3taeval - Evaluete incoming EM multipole expansion at a single target.
%
% Euler angles and orientation.
%   rotangles - Construct Euler angles for standard orientation types.
%   em3orient - Convert Euler angles into orientation frames.
%   em3euler - Reconstruct Euler angles from a rotation matrix.
%   em3euler_alt - Alternative representation of Euler angles.
%
% Spherical expansion rotation routines.
%   emabrotaf - Apply forward rotation operator to EM multipole.  
%   emabrotab - Apply inverse rotation operator to EM multipole.
%   rotviarecur  - Apply rotation matrix about y-axis, recurrence scheme.
%   rotproj      - Apply rotation matrix about y-axis, projection scheme.
%   rotprojvar   - Apply truncated rotation matrix about y-axis (projection).
%
% Triangulations.
%   atriread - Retrieve Cart3d triangulation from a file.
%   atriwrite - Store Cart3d triangulation to a file.
%   atriproc - Process triangulations in Cart3d format.
%
% Iterative methods.
%   gmres_simple    - GMRES algorithm.
%   gmres_restart   - GMRES algorithm with restarts.
%   gmres_cycle     - GMRES algorithm with cyclic restarts.
%   bicgstab_simple - BiCG(stab) algorithm.
%   congr_simple    - Conjugate gradients algorithm.
%
% Test and debugging routines.
%   test_die_arb - Reflection coefficients for a dielectric sphere.
%   test_pec - Reflection coefficients for a PEC sphere.
%   test_pmc - Reflection coefficients for a PMC sphere.
%   test_gold_sphere - Reflection coefficients for a gold sphere.
%   test_rmatr_diag - Reflection coefficients for a dielectric sphere.
%   test_rmatr_file - Retrieve reflection coefficients for an inclusion.
%   fmps_prini - Initialize internal printing/debugging routines.
%   plot_geometry - Retrieve and plot a Cart3D triangulation.
%   plot_inclusions - Plot all inclusions.
%   plot_spheres - Plot all enclosing spheres.
%   fmps_b_test1 - Test fmps_b solver for one sphere only.
%   fmps_b_test1post - Compare the output of fmps_b_test1 to exact solution.
%   test1 - Test dipole3et, em3formmp and em3mpeval.
%   test2 - Test dipole3et, em3formta and em3taeval.
%   test3 - Test em3mpta3.
%   test4 - Test dipole3et, em3formta and em3taeval for a big sphere.
%   test5 - Test the impedance factor, reflection and trasmission coeffients.
%   test6 - Shift local expansion for a dielectric sphere.
%   test7 - Shift local and mulitpole expansions for a dielectric sphere.
%