def _run_thm_c_with_band_indices(self): import anharmonic._phono3py as phono3c phono3c.thm_imag_self_energy(self._imag_self_energy, self._pp_strength, self._triplets_at_q, self._weights_at_q, self._frequencies, self._temperature, self._g, self._unit_conversion, self._cutoff_frequency)
def _run_thm_c_with_band_indices(self): import anharmonic._phono3py as phono3c phono3c.thm_imag_self_energy( self._imag_self_energy, self._interaction.get_interaction_strength(), self._grid_point_triplets, self._triplet_weights, self._frequencies, self._temperature, self._g, np.array(self._band_indices).flatten().astype('intc'), self._unit_conversion, self._cutoff_frequency)
def _run_thm_c_with_band_indices(self): import anharmonic._phono3py as phono3c phono3c.thm_imag_self_energy(self._imag_self_energy, self._fc3_normal_squared, self._triplets_at_q, self._weights_at_q, self._frequencies, self._temperature, self._g, self._unit_conversion, self._cutoff_frequency)
def _run_thm_c_with_frequency_points(self): import anharmonic._phono3py as phono3c g = np.zeros((2, ) + self._fc3_normal_squared.shape, dtype='double') for i in range(len(self._frequency_points)): for j in range(g.shape[2]): g[:, :, j, :, :] = self._g[:, :, i, :, :] phono3c.thm_imag_self_energy( self._imag_self_energy[i], self._fc3_normal_squared, self._triplets_at_q, self._weights_at_q, self._frequencies, self._temperature, g, self._unit_conversion, self._cutoff_frequency)
def _run_thm_c_with_band_indices(self): import anharmonic._phono3py as phono3c phono3c.thm_imag_self_energy(self._imag_self_energy, self._interaction.get_interaction_strength(), self._grid_point_triplets, self._triplet_weights, self._frequencies, self._temperature, self._g, np.array(self._band_indices).flatten().astype('intc'), self._unit_conversion, self._cutoff_frequency)
def _run_thm_c_with_frequency_points(self): import anharmonic._phono3py as phono3c g = np.zeros((2, ) + self._interaction.shape, dtype='double') ise_at_f = np.zeros(self._imag_self_energy.shape[1], dtype='double') for i in range(len(self._fpoints)): for j in range(g.shape[2]): g[:, :, j, :, :] = self._g[:, :, i, :, :] phono3c.thm_imag_self_energy(ise_at_f, self._interaction, self._grid_point_triplets, self._triplet_weights, self._frequencies, self._temperature, g, self._unit_conversion, self._cutoff_frequency) self._imag_self_energy[i] = ise_at_f
def _run_thm_c_with_frequency_points(self): import anharmonic._phono3py as phono3c g = np.zeros((2,) + self._fc3_normal_squared.shape, dtype='double') for i in range(len(self._frequency_points)): for j in range(g.shape[2]): g[:, :, j, :, :] = self._g[:, :, i, :, :] phono3c.thm_imag_self_energy(self._imag_self_energy[i], self._fc3_normal_squared, self._triplets_at_q, self._weights_at_q, self._frequencies, self._temperature, g, self._unit_conversion, self._cutoff_frequency)
def _run_thm_c_with_frequency_points(self): import anharmonic._phono3py as phono3c g = np.zeros((2,) + self._interaction.shape, dtype='double') ise_at_f = np.zeros(self._imag_self_energy.shape[1], dtype='double') for i in range(len(self._fpoints)): for j in range(g.shape[2]): g[:, :, j, :, :] = self._g[:, :, i, :, :] phono3c.thm_imag_self_energy(ise_at_f, self._interaction, self._grid_point_triplets, self._triplet_weights, self._frequencies, self._temperature, g, self._unit_conversion, self._cutoff_frequency) self._imag_self_energy[i] = ise_at_f