Exemplo n.º 1
0
def get_phonon(structure,
               NAC=False,
               setup_forces=True,
               super_cell_phonon=np.identity(3),
               primitive_axis=np.identity(3)):

    phonon = Phonopy(structure, super_cell_phonon,
                     primitive_matrix=primitive_axis,
                     symprec=1e-5)

    # Non Analytical Corrections (NAC) from Phonopy [Frequencies only, eigenvectors no affected by this option]

    if setup_forces:
        if structure.get_force_constants() is not None:
            phonon.set_force_constants(structure.get_force_constants().get_array())
        elif structure.get_force_sets() is not None:
            phonon.set_displacement_dataset(structure.get_force_sets().get_dict())
            phonon.produce_force_constants(computation_algorithm="svd")
            structure.set_force_constants(ForceConstants(phonon.get_force_constants(),
                                                         supercell=structure.get_force_sets().get_supercell()))
        else:
            print('No force sets/constants available!')
            exit()

    if NAC:
        print("Using non-analytical corrections")
        primitive = phonon.get_primitive()
        nac_params = parse_BORN(primitive, is_symmetry=True)
        phonon.set_nac_params(nac_params=nac_params)

    return phonon
Exemplo n.º 2
0
def get_phonon(structure,
               NAC=False,
               setup_forces=True,
               super_cell_phonon=np.identity(3),
               primitive_matrix=np.identity(3),
               symmetrize=True):
    """
    Return a phonopy phonon object (instance of the class Phonon)
    
    :param structure: unit cell matrix (lattice vectors in rows)
    :param NAC: (Bool) activate/deactivate Non-analytic corrections
    :param setup_forces: (Bool) decide if pre-calculate harmonic forces in phonon object
    :param super_cell_phonon: 3x3 array containing the supercell to be used to calculate the force constants
    :param primitive_matrix: 3x3 array containing the primitive axis (in rows) which define the primitive cell
    :param symmetrize: decide if symmetrize the force constants
    :return: phonopy phonon object
    """

    phonon = Phonopy(structure,
                     super_cell_phonon,
                     primitive_matrix=primitive_matrix,
                     symprec=1e-5,
                     is_symmetry=symmetrize)

    # Non Analytical Corrections (NAC) from Phonopy [Frequencies only, eigenvectors no affected by this option]

    if setup_forces:
        if structure.get_force_constants() is not None:
            phonon.set_force_constants(
                structure.get_force_constants().get_array())
        elif structure.get_force_sets() is not None:
            phonon.set_displacement_dataset(
                structure.get_force_sets().get_dict())
            phonon.produce_force_constants(computation_algorithm="svd")
            structure.set_force_constants(
                ForceConstants(
                    phonon.get_force_constants(),
                    supercell=structure.get_force_sets().get_supercell()))
        else:
            print('No force sets/constants available!')
            exit()

    if NAC:
        print("Using non-analytical corrections")
        primitive = phonon.get_primitive()
        try:
            nac_params = parse_BORN(primitive, is_symmetry=True)
            phonon.set_nac_params(nac_params=nac_params)
        except OSError:
            print('Required BORN file not found!')
            exit()

    return phonon
Exemplo n.º 3
0
def get_phonon(structure,
               NAC=False,
               setup_forces=True,
               custom_supercell=None,
               symprec=1e-5):

    if custom_supercell is None:
        super_cell_phonon = structure.get_supercell_phonon()
    else:
        super_cell_phonon = custom_supercell

    # Preparing the bulk type object
    bulk = PhonopyAtoms(symbols=structure.get_atomic_elements(),
                        scaled_positions=structure.get_scaled_positions(),
                        cell=structure.get_cell())

    phonon = Phonopy(bulk,
                     super_cell_phonon,
                     primitive_matrix=structure.get_primitive_matrix(),
                     symprec=symprec)

    # Non Analytical Corrections (NAC) from Phonopy [Frequencies only, eigenvectors no affected by this option]

    if setup_forces:
        if structure.get_force_constants() is not None:
            phonon.set_force_constants(
                structure.get_force_constants().get_array())
        elif structure.get_force_sets() is not None:
            phonon.set_displacement_dataset(
                structure.get_force_sets().get_dict())
            phonon.produce_force_constants()
            structure.set_force_constants(
                ForceConstants(
                    phonon.get_force_constants(),
                    supercell=structure.get_force_sets().get_supercell()))
        else:
            print('No force sets/constants available!')
            exit()

    if NAC:
        print("Warning: Using Non Analytical Corrections")
        primitive = phonon.get_primitive()
        nac_params = parse_BORN(primitive, is_symmetry=True)
        phonon.set_nac_params(nac_params=nac_params)

    return phonon
Exemplo n.º 4
0
def get_phonon(structure, NAC=False, setup_forces=True, custom_supercell=None):

    if custom_supercell is None:
        super_cell_phonon = structure.get_supercell_phonon()
    else:
        super_cell_phonon = custom_supercell

    # Preparing the bulk type object
    bulk = PhonopyAtoms(symbols=structure.get_atomic_elements(),
                        scaled_positions=structure.get_scaled_positions(),
                        cell=structure.get_cell())

    phonon = Phonopy(bulk, super_cell_phonon,
                     primitive_matrix=structure.get_primitive_matrix(),
                     symprec=1e-5)

    # Non Analytical Corrections (NAC) from Phonopy [Frequencies only, eigenvectors no affected by this option]

    if setup_forces:
        if structure.get_force_constants() is not None:
            phonon.set_force_constants(structure.get_force_constants().get_array())
        elif structure.get_force_sets() is not None:
            phonon.set_displacement_dataset(structure.get_force_sets().get_dict())
            phonon.produce_force_constants()
            structure.set_force_constants(ForceConstants(phonon.get_force_constants(),
                                                         supercell=structure.get_force_sets().get_supercell()))
        else:
            print('No force sets/constants available!')
            exit()

    if NAC:
        print("Warning: Using Non Analytical Corrections")
        primitive = phonon.get_primitive()
        nac_params = parse_BORN(primitive, is_symmetry=True)
        phonon.set_nac_params(nac_params=nac_params)

    return phonon