Ejemplo n.º 1
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    def test_HkFe(self):
        Hr = extractHr("test_data/Fe_hr_test.dat")
        k0 = (0.0, 0.0, 0.0)
        latVecs = _latVecs()
        Hk_0 = Hk(k0, Hr, latVecs)

        expected = complex(28.252214, -2.312399946e-18)
        eps = 1e-6
        assertEquivComplex(self, Hk_0[0, 0], expected, eps, eps)
Ejemplo n.º 2
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    def test_dHkdkFe(self):
        Hr = extractHr("test_data/Fe_hr_test.dat")
        k0 = (0.0, 0.0, 0.0)
        latVecs = _latVecs()

        deriv = dHk_dk(k0, Hr, latVecs)

        expected = complex(-2.8699914595e-06, -1.08160008727e-15)
        eps = 1e-6
        assertEquivComplex(self, deriv[0][0,0], expected, eps, eps)
Ejemplo n.º 3
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def make_plot(work, prefix, plot_evecs, minE, maxE):
    qe_bands_path = os.path.join(work, prefix, "bands",
                                 "{}_bands.dat".format(prefix))
    wannier_dir = os.path.join(work, prefix, "wannier")
    scf_path = os.path.join(wannier_dir, "scf.out")
    Hr_path = os.path.join(wannier_dir, "{}_hr.dat".format(prefix))

    nbnd, nks, evalsQE = extractQEBands(qe_bands_path)
    alat = alat_from_scf(scf_path)
    latVecs = latVecs_from_scf(scf_path)
    E_F = fermi_from_scf(scf_path)

    if minE is None:
        minE = E_F - 9.0
    else:
        minE = E_F + minE

    if maxE is None:
        maxE = E_F + 6.0
    else:
        maxE = E_F + maxE

    Hr = extractHr(Hr_path)
    outpath = prefix
    symList = ["$\\Gamma$", "$M$", "$K$", "$\\Gamma$"]
    component_labels = get_orbital_labels(work, prefix)
    plotBands(evalsQE,
              Hr,
              alat,
              latVecs,
              minE,
              maxE,
              outpath,
              symList=symList,
              fermi_energy=E_F,
              plot_evecs=plot_evecs,
              component_labels=component_labels)
Ejemplo n.º 4
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 def test_extractHrFe(self):
     Hr = extractHr("test_data/Fe_hr_test.dat")
     elem = Hr[(-6, 2, -4)]
     self.assertEqual(elem[0][0, 0], complex(0.004554, 0.0))
     self.assertEqual(elem[1], 4)
Ejemplo n.º 5
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def get_Hr(work, prefix):
    wannier_dir = os.path.join(work, prefix, "wannier")
    Hr_path = os.path.join(wannier_dir, "{}_hr.dat".format(prefix))

    Hr = extractHr(Hr_path)
    return Hr
Ejemplo n.º 6
0
                        default=None)
    parser.add_argument('--scf_path',
                        type=str,
                        help="Path to QE scf output file.",
                        default=None)
    parser.add_argument('--minE',
                        type=float,
                        help="Minimal energy to plot.",
                        default=None)
    parser.add_argument('--maxE',
                        type=float,
                        help="Maximum energy to plot.",
                        default=None)
    parser.add_argument('--show',
                        help="Show plot before writing file.",
                        action='store_true')
    args = parser.parse_args()

    if args.Hr_path is not None:
        nbnd, nks, evalsQE = extractQEBands(args.QE_path)
        print("QE eigenvalues loaded.")
        Hr = extractHr(args.Hr_path)
        print("Wannier Hamiltonian loaded.")
        alat = alat_from_scf(args.scf_path)
        latVecs = latVecs_from_scf(args.scf_path)
        plotBands(evalsQE, Hr, alat, latVecs, args.minE, args.maxE,
                  args.outPath, args.show)
    else:
        plotDFTBands(args.QE_path, args.outPath, args.minE, args.maxE,
                     args.show)