Analysis script also for finiterectlat constant driving results
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Marek Nečada
Marek Nečada
parent
2c12d28c70
commit
030a96d56f
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@ -42,11 +42,16 @@ def _meta_matspec2emg(matspec):
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return EpsMuGenerator(lorentz_drude[matspec])
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class FiniteRectLatModesAnalysis:
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'''Recreates the scattering system structure from finiterectlat_modes.py'''
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class FiniteRectLatAnalysis:
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'''Recreates the scattering system structure from finiterectlat-modes.py or
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finiterectlat-constant-driving.py'''
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def __init__(self, data):
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meta = data['meta'][()]
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thegroup = 'D2h' if meta['D2'] else 'D4h'
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scatter = 'symmetry_adapted' in meta.keys()# finiterectlat-constant-driving ; TODO unify
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if scatter:
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thegroup = meta['symmetry_adapted']
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else: # finiterectlat-modes
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thegroup = 'D2h' if meta['D2'] else 'D4h'
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Nx, Ny = meta['size']
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px, py = meta['period']
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orig_x = (np.arange(Nx/2) + (0 if (Nx % 2) else .5)) * px
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@ -62,8 +67,9 @@ class FiniteRectLatModesAnalysis:
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tmgen = TMatrixGenerator.cylinder(bg, fg, meta['radius'], meta['height'], lMax_extend=meta['lMax_extend'])
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particles = [Particle(orig_xy[i], tmgen, bspec) for i in np.ndindex(orig_xy.shape[:-1])]
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sym = FinitePointGroup(point_group_info[thegroup])
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self.ss, self.ssw = ScatteringSystem.create(particles, bg, meta['centre'] * eh, sym=sym)
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ss1, ssw1 = ScatteringSystem.create([Particle([0,0,0], tmgen, bspec)], bg, meta['centre']*eh, sym=sym)
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omega = data['omega'][()] if scatter else meta['centre'] * eh
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self.ss, self.ssw = ScatteringSystem.create(particles, bg, omega, sym=sym)
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ss1, ssw1 = ScatteringSystem.create([Particle([0,0,0], tmgen, bspec)], bg, omega, sym=sym)
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self.ss1, self.ssw1 = ss1, ssw1
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# per-particle projectors/transformation to symmetry-adapted bases
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@ -97,19 +103,26 @@ class FiniteRectLatModesAnalysis:
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self.meta = meta
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self.npzfile = data
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self.eigval = data['eigval']
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self.neig = len(self.eigval)
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self.eigvec = data['eigvec']
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self.residuals = data['residuals']
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self.ranktest_SV = data['ranktest_SV']
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self.iri = data['iri'][()]
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self.fvcs1 = fvcs1
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self.iris1 = np.array(iris1)
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self.bspec = bspec
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self.nelem = nelem
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self.Nx, self.Ny, self.px, self.py = Nx, Ny, px, py
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self.posmap = posmap
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self.fullvec_poffsets = nelem * np.arange(Nx*Ny)
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self.fvcs1 = fvcs1
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self.iris1 = np.array(iris1)
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if scatter:
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self.typ = 'scatter'
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self.fvcs1_fromdata = data['fvcs1']
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self.iris1_fromdata = data['iris1']
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self.positions_fromdata = data['positions']
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else: # modes
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self.typ = 'modes'
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self.eigval = data['eigval']
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self.neig = len(self.eigval)
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self.eigvec = data['eigvec']
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self.residuals = data['residuals']
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self.ranktest_SV = data['ranktest_SV']
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self.iri = data['iri'][()]
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def fullvec2grid(self, fullvec, swapxy=False):
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