示例#1
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def test_bloch_call():
    b = Bloch([2] * 3)
    H = get_H()

    # Manual
    k_unfold = b.unfold_points([0] * 3)
    m = b.unfold(np.stack([H.Hk(k, format='array') for k in k_unfold]),
                 k_unfold)
    m1 = b.unfold([H.Hk(k, format='array') for k in k_unfold], k_unfold)

    assert np.allclose(m, m1)
    assert np.allclose(m, b(H.Hk, [0] * 3, format='array'))
示例#2
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def test_bloch_H_same(nx, ny, nz, dtype):
    H = get_H()
    b = Bloch([nx, ny, nz])

    if dtype == np.complex64:
        atol = 1e-6
    else:
        atol = 1e-8

    HB = H.tile(nx, 0).tile(ny, 1).tile(nz, 2)

    KX = [0, 0.1, 0.4358923]
    KY = [0, 0.128359, -0.340925]
    KZ = [0, 0.445]
    for kx, ky, kz in product(KX, KY, KZ):
        K = [kx, ky, kz]
        k_unfold = b.unfold_points(K)

        HK = [H.Hk(k, format='array', dtype=dtype) for k in k_unfold]
        H_unfold = b.unfold(HK, k_unfold)
        H_big = HB.Hk(K, format='array', dtype=dtype)

        assert np.allclose(H_big, H_big.T.conj(), atol=atol)
        assert np.allclose(H_unfold, H_unfold.T.conj(), atol=atol)
        assert np.allclose(H_unfold, H_big, atol=atol)
示例#3
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def test_bloch_one_direction(nx, ny, nz):
    H = get_H()
    b = Bloch([nx, ny, nz])

    HB = H.tile(nx, 0).tile(ny, 1).tile(nz, 2)

    KX = [0, 0.1, 0.4358923]
    KY = [0, 0.128359, -0.340925]
    KZ = [0, 0.445]
    for kx, ky, kz in product(KX, KY, KZ):
        K = [kx, ky, kz]
        k_unfold = b.unfold_points(K)

        HK = [H.Hk(k, format='array') for k in k_unfold]
        H_unfold = b.unfold(HK, k_unfold)
        H_big = HB.Hk(K, format='array')

        assert np.allclose(H_unfold, H_big)
示例#4
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文件: test_bloch.py 项目: lwk205/sisl
def test_bloch_one_direction(nx, ny, nz, dtype):
    H = get_H()
    b = Bloch([nx, ny, nz])

    if dtype == np.complex64:
        atol = 1e-6
    else:
        atol = 1e-8

    HB = H.tile(nx, 0).tile(ny, 1).tile(nz, 2)

    KX = [0, 0.1, 0.4358923]
    KY = [0, 0.128359, -0.340925]
    KZ = [0, 0.445]
    for kx, ky, kz in product(KX, KY, KZ):
        K = [kx, ky, kz]
        k_unfold = b.unfold_points(K)

        HK = [H.Hk(k, format='array', dtype=dtype) for k in k_unfold]
        H_unfold = b.unfold(np.stack(HK), k_unfold)
        H_big = HB.Hk(K, format='array', dtype=dtype)

        print(np.amax(np.absolute(H_unfold - H_big)))
        assert np.allclose(H_unfold, H_big, atol=atol)