qpms/misc/201903_finiterectlat_AaroBE...

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2.5 KiB
Python
Executable File

#!/usr/bin/env python
# coding: utf-8
from qpms import Particle, CTMatrix, BaseSpec, FinitePointGroup, ScatteringSystem, TMatrixInterpolator, eV, hbar, c, MaterialInterpolator, scatsystem_set_nthreads
from qpms.symmetries import point_group_info
import numpy as np
import os
import sys
from pathlib import Path
if 'SLURM_CPUS_PER_TASK' in os.environ:
scatsystem_set_nthreads(int(os.environ['SLURM_CPUS_PER_TASK']))
nm = 1e-9
rewrite_output = '--rewrite-output' in sys.argv
sym = FinitePointGroup(point_group_info['D2h'])
bspec = BaseSpec(lMax = 2)
tmfile = '/m/phys/project/qd/Marek/tmatrix-experiments/Cylinder/AaroBEC/cylinder_50nm_lMax4_longer.TMatrix'
#outputdatadir = '/home/necadam1/wrkdir/AaroBECfinite_new'
outputdatadir = '/u/46/necadam1/unix/project/AaroBECfinite_new'
os.makedirs(outputdatadir, exist_ok = True)
interp = TMatrixInterpolator(tmfile, bspec, symmetrise = sym, atol = 1e-8)
# There is only one t-matrix in the system for each frequency. We initialize the matrix with the lowest frequency data.
# Later, we can replace it using the tmatrix[...] = interp(freq) and s.update_tmatrices NOT YET; TODO
omega = float(sys.argv[3]) * eV/hbar
sv_threshold = float(sys.argv[4])
# Now place the particles and set background index.
px = 571*nm; py = 621*nm
n = 1.52
Nx = int(sys.argv[1])
Ny = int(sys.argv[2])
orig_x = (np.arange(Nx/2) + (0 if (Nx % 2) else .5)) * px
orig_y = (np.arange(Ny/2) + (0 if (Ny % 2) else .5)) * py
orig_xy = np.stack(np.meshgrid(orig_x, orig_y), axis = -1)
tmatrix = interp(omega)
#print(tmatrix.m)
particles = [Particle(orig_xy[i], tmatrix) for i in np.ndindex(orig_xy.shape[:-1])]
ss = ScatteringSystem(particles, sym)
k = n * omega / c
for iri in range(ss.nirreps):
destpath = os.path.join(outputdatadir, 'Nx%d_Ny%d_%geV_ir%d.npz'%(Nx, Ny, omega/eV*hbar, iri,))
touchpath = os.path.join(outputdatadir, 'Nx%d_Ny%d_%geV_ir%d.done'%(Nx, Ny, omega/eV*hbar, iri,))
if (os.path.isfile(destpath) or os.path.isfile(touchpath)) and not rewrite_output:
print(destpath, 'already exists, skipping')
continue
mm_iri = ss.modeproblem_matrix_packed(k, iri)
#print(mm_iri)
U, S, Vh = np.linalg.svd(mm_iri)
del U
print(iri, ss.irrep_names[iri], S[-1])
starti = max(0,len(S) - np.searchsorted(S[::-1], sv_threshold, side='left')-1)
np.savez(destpath,
S=S[starti:], omega=omega, Vh = Vh[starti:], iri=iri, Nx = Nx, Ny= Ny )
del S
del Vh
Path(touchpath).touch()
# Don't forget to conjugate Vh before transforming it to the full vector!