Index

_

__call__() (py4mulas.berry_curvature.BerryCurvature method) (py4mulas.energy_kernels.EnergyKernel method) (py4mulas.energy_kernels.FermiDirac method) (py4mulas.energy_kernels.KuboBastinKernel method) (py4mulas.energy_kernels.KuboKernel method) (py4mulas.energy_kernels.PrimitiveFermiDirac method) (py4mulas.energy_kernels.SecondOrderKuboKernel method) (py4mulas.formulas.KuboFormula method) (py4mulas.integrator.Nquad method) (py4mulas.mpi.computers.HamParamComputer method) (py4mulas.mpi.computers.MuTEtaComputer method) (py4mulas.operators.Identity method) (py4mulas.operators.SpinOperator method) (py4mulas.operators.Velocity method)

A

a (py4mulas.operators.MagneticOctupoleCurrent attribute) (py4mulas.operators.MagneticOctupoleDensity attribute) (py4mulas.operators.QuadripoleCurrent attribute) (py4mulas.operators.QuadripoleDensity attribute)

alpha (py4mulas.berry_curvature.BerryCurvature attribute) (py4mulas.responses.Kubo attribute) (py4mulas.responses.SecondOrderKubo attribute) anomalous_kernel() (py4mulas.energy_kernels.KuboKernel method) apply() (py4mulas.mpi.kspace_partitioner.MakeBounds method)

B

b (py4mulas.operators.MagneticOctupoleCurrent attribute) (py4mulas.operators.MagneticOctupoleDensity attribute) (py4mulas.operators.QuadripoleCurrent attribute) (py4mulas.operators.QuadripoleDensity attribute) band_resolved() (py4mulas.operators.SpinOperator method) batcher() (in module py4mulas.formulas)

BerryCurvature (class in py4mulas.berry_curvature) beta (py4mulas.berry_curvature.BerryCurvature attribute) (py4mulas.responses.Kubo attribute) (py4mulas.responses.SecondOrderKubo attribute) bmII_kernel() (py4mulas.energy_kernels.KuboBastinKernel method) boxes_factory() (py4mulas.mpi.kspace_partitioner.MakeBounds method) build_box_from_center() (py4mulas.mpi.kspace_partitioner.MakeBounds method)

C

c (py4mulas.operators.MagneticOctupoleCurrent attribute) (py4mulas.operators.MagneticOctupoleDensity attribute) centers (py4mulas.mpi.kspace_partitioner.MakeBounds attribute) (py4mulas.mpi.kspace_partitioner.MakeVectors attribute) chunk_size (py4mulas.formulas.KuboFormula property) (py4mulas.utils.KspaceOptions attribute)

coarse_n (py4mulas.mpi.kspace_partitioner.MakeVectors attribute) complementary_directions() (py4mulas.mpi.kspace_partitioner.MakeBounds method) contractions (py4mulas.energy_kernels.EnergyKernel property) (py4mulas.formulas.KuboFormula attribute) contribution (py4mulas.responses.SecondOrderKubo attribute)

D

data() (py4mulas.mpi.kspace_partitioner.MakeBounds method) (py4mulas.mpi.kspace_partitioner.MakeVectors method) delete() (py4mulas.mpi.kspace_partitioner.MakeBounds method) direction (py4mulas.operators.MagneticOctupoleCurrent attribute) (py4mulas.operators.OrbitalCurrent attribute) (py4mulas.operators.QuadripoleCurrent attribute) (py4mulas.operators.SpinCurrent attribute) (py4mulas.operators.SpinOperator attribute)

discret_response() (py4mulas.mpi.computers.HamParamComputer method) (py4mulas.mpi.computers.MuTEtaComputer method)

E

e_shape (py4mulas.formulas.KuboFormula property) energy_kernel() (py4mulas.formulas.KuboFormula method) (py4mulas.responses.Kubo method)

EnergyKernel (class in py4mulas.energy_kernels) equal_in_some_directions() (py4mulas.mpi.kspace_partitioner.MakeBounds method) evenKernel() (py4mulas.energy_kernels.KuboKernel method)

F

FermiDirac (class in py4mulas.energy_kernels)

full_kernel() (py4mulas.energy_kernels.KuboBastinKernel method)

G

gamma (py4mulas.operators.OrbitalCurrent attribute) (py4mulas.operators.OrbitalDensity attribute) (py4mulas.responses.SecondOrderKubo attribute)

generate_bounds() (py4mulas.mpi.kspace_partitioner.MakeBounds method)

H

H (py4mulas.formulas.KuboFormula property)

HamParamComputer (class in py4mulas.mpi.computers)

I

Identity (class in py4mulas.operators) integrand() (py4mulas.formulas.KuboFormula method)

interband_kubo_kernel() (py4mulas.energy_kernels.KuboKernel method) intraband_kubo_kernel() (py4mulas.energy_kernels.KuboKernel method) isinside() (py4mulas.mpi.kspace_partitioner.MakeBounds method)

K

k_vectors (py4mulas.formulas.KuboFormula property) kernel (py4mulas.responses.Kubo attribute) (py4mulas.responses.SecondOrderKubo attribute) kernel_norbs (py4mulas.formulas.KuboFormula attribute) kernel_shape (py4mulas.formulas.KuboFormula property) kplot() (in module py4mulas.plotters) kspace_options (py4mulas.formulas.KuboFormula attribute) (py4mulas.responses.Kubo attribute) (py4mulas.responses.SecondOrderKubo attribute)

KspaceOptions (class in py4mulas.utils) Kubo (class in py4mulas.responses) KuboBastinKernel (class in py4mulas.energy_kernels) KuboFormula (class in py4mulas.formulas) KuboKernel (class in py4mulas.energy_kernels)

M

MagneticOctupoleCurrent (class in py4mulas.operators) MagneticOctupoleDensity (class in py4mulas.operators) main_kernel() (py4mulas.formulas.KuboFormula method) (py4mulas.responses.Kubo method) (py4mulas.responses.SecondOrderKubo method) MakeBounds (class in py4mulas.mpi.kspace_partitioner) MakeVectors (class in py4mulas.mpi.kspace_partitioner) model (py4mulas.berry_curvature.BerryCurvature attribute) (py4mulas.formulas.KuboFormula attribute) (py4mulas.mpi.kspace_partitioner.MakeBounds attribute) (py4mulas.mpi.kspace_partitioner.MakeVectors attribute) (py4mulas.operators.MagneticOctupoleCurrent attribute) (py4mulas.operators.MagneticOctupoleDensity attribute) (py4mulas.operators.OrbitalCurrent attribute) (py4mulas.operators.OrbitalDensity attribute) (py4mulas.operators.QuadripoleCurrent attribute) (py4mulas.operators.QuadripoleDensity attribute) (py4mulas.operators.SpinCurrent attribute) (py4mulas.operators.SpinDensity attribute) (py4mulas.operators.SpinOperator attribute) (py4mulas.responses.Kubo attribute) (py4mulas.responses.SecondOrderKubo attribute)

module py4mulas.berry_curvature py4mulas.energy_kernels py4mulas.formulas py4mulas.integrator py4mulas.mpi.computers py4mulas.mpi.kspace_partitioner py4mulas.operators py4mulas.plotters py4mulas.responses py4mulas.utils MuTEtaComputer (class in py4mulas.mpi.computers)

N

name (py4mulas.energy_kernels.KuboBastinKernel attribute) (py4mulas.energy_kernels.KuboKernel attribute) Nquad (class in py4mulas.integrator)

nquad_response() (py4mulas.mpi.computers.HamParamComputer method) (py4mulas.mpi.computers.MuTEtaComputer method) num_k (py4mulas.formulas.KuboFormula property)

O

oddKernel() (py4mulas.energy_kernels.KuboKernel method) OrbitalCurrent (class in py4mulas.operators)

OrbitalDensity (class in py4mulas.operators) overlap_kernel() (py4mulas.energy_kernels.KuboBastinKernel method)

P

partial_generation() (py4mulas.mpi.kspace_partitioner.MakeBounds method) pauli (py4mulas.operators.SpinCurrent attribute) (py4mulas.operators.SpinDensity attribute) (py4mulas.operators.SpinOperator attribute) plot_bands() (in module py4mulas.plotters) precomp (py4mulas.utils.KspaceOptions attribute) prefactor (py4mulas.formulas.KuboFormula property) PrimitiveFermiDirac (class in py4mulas.energy_kernels) projected_spectrum() (in module py4mulas.plotters) py4mulas.berry_curvature module py4mulas.energy_kernels module py4mulas.formulas module

py4mulas.integrator module py4mulas.mpi.computers module py4mulas.mpi.kspace_partitioner module py4mulas.operators module py4mulas.plotters module py4mulas.responses module py4mulas.utils module

Q

QuadripoleCurrent (class in py4mulas.operators)

QuadripoleDensity (class in py4mulas.operators)

S

SecondOrderKubo (class in py4mulas.responses) SecondOrderKuboKernel (class in py4mulas.energy_kernels) size (py4mulas.mpi.kspace_partitioner.MakeBounds attribute) SpinCurrent (class in py4mulas.operators)

SpinDensity (class in py4mulas.operators) SpinOperator (class in py4mulas.operators) split_boxes() (py4mulas.mpi.kspace_partitioner.MakeBounds method) split_others() (py4mulas.mpi.kspace_partitioner.MakeBounds method) stredaI_kernel() (py4mulas.energy_kernels.KuboBastinKernel method)

U

update_bounds() (py4mulas.mpi.kspace_partitioner.MakeBounds method)

V

valid() (py4mulas.mpi.kspace_partitioner.MakeBounds method) valid_appartenance() (py4mulas.mpi.kspace_partitioner.MakeBounds method)

Velocity (class in py4mulas.operators) view() (py4mulas.mpi.kspace_partitioner.MakeBounds method) (py4mulas.mpi.kspace_partitioner.MakeVectors method)

W

where_it_belongs() (py4mulas.mpi.kspace_partitioner.MakeBounds method)

where_it_partially_belongs() (py4mulas.mpi.kspace_partitioner.MakeBounds method)