Exemple #1
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def test():
    #atoms=gen_pnma('LaMnO3',out_of_phase_rotation=1.5)
    #atoms=gen_pnma('LaMnO3',JT_d=0.2)
    #atoms=gen_pnma('LaMnO3',in_phase_tilting=0.6)
    atoms = gen_distorted_perovskite('LaMnO3',
                                     out_of_phase_rotation=0.0,
                                     JT_d=0.0,
                                     in_phase_tilting=0.9,
                                     breathing=0.0)
    vesta_view(atoms)
Exemple #2
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def test():
    atoms=gen_P21c_perovskite(name='YNiO3', cell=[3.7,3.7,3.7],

    supercell_matrix=[[1, -1, 0], [1, 1, 0], [0, 0, 2]],
    modes=dict(
        #R2_m_O1=0.8, #breathing
        #R3_m_O1=1.0,
        #R3_m_O2=1.0,  # R3-[O1:c:dsp]A2u(b), O, out-of-plane-stagger, inplane antiphase
        
        #R5_m_O1=1.2,  # R5-[O1:c:dsp]Eu(a), O a-
        #R5_m_O2=1.2,  # R5-[O1:c:dsp]Eu(a), O b-
        #R5_m_O3=1.0,  # R5-[O1:c:dsp]Eu(c), O  c-
        #X5_m_A1=1.0,  # [Nd1:a:dsp]T1u(a), A , Antiferro mode


        #R4_m_A1=0.5,  # R4-[Nd1:a:dsp]T1u(a), A , Antipolar mode in Pnma  
        #R4_m_A2=0.5,  # R4-[Nd1:a:dsp]T1u(b), A,  Antipolar mode in Pnma
        R4_m_A3=0.0,  # R4-[Nd1:a:dsp]T1u(c), A, Unusual 
        #R4_m_A3=0.0,  # R4-[Nd1:a:dsp]T1u(c), A, Unusual 
        #R4_m_O1=0.0,  # R4-[O1:c:dsp]Eu(a), O, Unusual
        #R4_m_O2=0.0,  # R4-[O1:c:dsp]Eu(b), O, Unusual
        #R4_m_O3=0.0,  # R4-[O1:c:dsp]Eu(c), O, Unusual


        #M2_p_O1=1.2,  # M2+[O1:c:dsp]Eu(a), O, In phase rotation c+

        #M3_p_O1=0.1,  # M3+[O1:c:dsp]A2u(a), O, D-type JT inplane stagger

        #M5_p_O1=1.0,  # M5+[O1:c:dsp]Eu(a), O, Out of phase tilting

        #M4_p_O1=1.0 , # M4+[O1:c:dsp]A2u(a), O, in-plane-breathing (not in P21/c)
        G_Ax=0.0,
        G_Ay=0.0,
        G_Az=0.0,
        G_Sx=0.0,
        G_Sy=0.0,
        G_Sz=0.0,
        G_Axex=0.0,
        G_Axey=0.0,
        G_Axez=0.0,
        G_Lx=0.0,
        G_Ly=0.0,
        G_Lz=0.0,
        #G_G4x=0.1,
        #G_G4y=0.1,
        #G_G4z=0.1,
    )
    )
    #write('P4mm.vasp', atoms, vasp5=True)
    vesta_view(atoms)
Exemple #3
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def test_distortion():
    amp=np.random.random(6)
    atoms=gen_P21c_perovskite(
        'NdNiO3',
        cell=[3.785415]*3,
        supercell_matrix=[[1, -1, 0], [1, 1, 0], [0, 0, 2]],
        modes=dict(
        #R2_m_O1=amp[0]*0.1,  # R2-[O1:c:dsp]A2u(a), O, breathing
        #R3_m_O1=-0.0023,  # R3-[O1:c:dsp]A2u(a), O JT inplane-stagger, out-of-plane antiphase
        #R3_m_O2=amp[1],  # R3-[O1:c:dsp]A2u(b), O, out-of-plane-stagger, inplane antiphase
        #R4_m_A1=amp[2],  # R4-[Nd1:a:dsp]T1u(a), A
        #R4_m_A2=0.0,  # R4-[Nd1:a:dsp]T1u(b), A
        #R4_m_A3=0.0,  # R4-[Nd1:a:dsp]T1u(c), A
        #R4_m_O1=0.0,  # R4-[O1:c:dsp]Eu(a), O
        #R4_m_O2=0.0,  # R4-[O1:c:dsp]Eu(b), O
        #R4_m_O3=0.0,  # R4-[O1:c:dsp]Eu(c), O

        R5_m_O1=0.81457,  # R5-[O1:c:dsp]Eu(a), O a-
        R5_m_O2=0.81457,  # R5-[O1:c:dsp]Eu(b), O b-
        R5_m_O3=0.81457,  # R5-[O1:c:dsp]Eu(c), O c- (not in Pnma)
        #X3_m_A1=0.0,  # X3-[Nd1:a:dsp]T1u(a), What's this..
        #X3_m_O1=0.0,  # X3-[O1:c:dsp]A2u(a)

        #X5_m_A1=0.3219,  # [Nd1:a:dsp]T1u(a), A , Antiferro mode
        #Z5_m_A2=0.3219,  # [Nd1:a:dsp]T1u(b), A , save as above
        #X5_m_O1=-0.06299,  # [Nd1:a:dsp]T1u(a), O , Antiferro mode
        #Z5_m_O2=-0.06299,  # [Nd1:a:dsp]T1u(b), O , same as above

        #M2_p_O1=0.739,  # M2+[O1:c:dsp]Eu(a), O, In phase rotation
        #M3_p_O1=0.00412,  # M3+[O1:c:dsp]A2u(a), O, D-type JT inplane stagger
        #M5_p_O1=0.00015,  # M5+[O1:c:dsp]Eu(a), O, Out of phase tilting
        #M5_p_O2=-0.00015,  # M5+[O1:c:dsp]Eu(b), O, Out of phase tilting, -above
        #M4_p_O1=0.0 , # M4+[O1:c:dsp]A2u(a), O, in-plane-breathing (not in P21/c)
            )
        )
    vesta_view(atoms)
        #write("NNO_br%s.vasp"%br,atoms, vasp5=True)
    return amp, atoms
Exemple #4
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    """
    if name is not None:
        symbols=string2symbols(name)
        A, B, O, _, _ = symbols
    atoms = PerovskiteCubic([A, B, O], latticeconstant=latticeconstant)
    direction_dict = {
        'A': ([1, 0, 0], [0, 1, 0], [0, 0, 2]),
        'C': ([1, -1, 0], [1, 1, 0], [0, 0, 1]),
        'G': ([0, 1, 1], [1, 0, 1], [1, 1, 0]),
        'FM': np.eye(3),
    }
    size_dict = {'A': (1, 1, 2), 'C': (1, 1, 1), 'G': (1, 1, 1)}
    A, B, O = atoms.get_chemical_symbols()[0:3]
    if mag_order == 'PM':
        atoms = atoms
    elif mag_order == 'FM':
        atoms = atoms
        atoms = set_element_mag(atoms, B, [m])
    else:
        atoms.translate([0.045] * 3)
        atoms = normalize(atoms)
        atoms = make_supercell(atoms, direction_dict[mag_order])
        atoms.translate([-0.045] * 3)
        atoms = set_element_mag(atoms, B, [m, -m])
    return atoms


if __name__ == '__main__':
    atoms = gen_primitive(name='LaMnO3',mag_order='C')
    vesta_view(atoms)
Exemple #5
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def test():
    mylwf = LWF.load_nc(fname='./Downfolded_hr.nc')
    atoms = lwf_to_atoms(mylwf,
                         scmat=np.diag([5, 5, 5]),
                         amplist=[[(0, 0, 0), 0, 1], [(0, 0, 0), 1, 1]])
    vesta_view(atoms)
Exemple #6
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#!/usr/bin/env python
from pyDFTutils.perovskite.frozen_mode import gen_distorted_perovskite
from pyDFTutils.ase_utils import vesta_view
from pyDFTutils.ase_utils import substitute_atoms
from ase.io import write


def gen():
    atoms = gen_distorted_perovskite(
        name='NdNiO3',
        cell=[3.79, 3.79, 3.79],
        #supercell_matrix=[[1, -1, 0], [1, 1, -2], [1, 1, 1]],
        #supercell_matrix=[[1, 1, 1.0], [-1, 1, 1.0], [0, -2, 1.0]],
        supercell_matrix=[[1, 1, 2.0], [-1, 1, 2.0], [0, -2, 2.0]],
        out_of_phase_rotation=0.4,
        in_phase_rotation=0.3,
        #in_phase_tilting=0.3,
        #JT_a=1.35,
        #JT_d=1.05,
        #breathing=0.5
    )
    #atom=substitute_atoms(atoms,['Ni5','Ni10'],['Ga','Ga'])
    return atoms


write('P21c.cif', gen())
vesta_view(gen())