Exemplo n.º 1
0
def test_compare_placzek_albrecht_intensities(testdir):
    atoms = H2Morse()
    name = 'rrmorse'
    rmc = ResonantRamanCalculator(atoms,
                                  H2MorseExcitedStatesCalculator,
                                  overlap=lambda x, y: x.overlap(y),
                                  name=name,
                                  txt='-')
    rmc.run()

    om = 1
    gam = 0.1
    pri, ali = 0, 0
    """Albrecht A and P-P are approximately equal"""

    pr = Profeta(atoms,
                 H2MorseExcitedStates,
                 name=name,
                 overlap=True,
                 approximation='p-p',
                 txt=None)
    pri = pr.get_absolute_intensities(omega=om, gamma=gam)[-1]
    al = Albrecht(atoms,
                  H2MorseExcitedStates,
                  name=name,
                  overlap=True,
                  approximation='Albrecht A',
                  txt=None)
    ali = al.get_absolute_intensities(omega=om, gamma=gam)[-1]
    print('pri, ali', pri, ali)
    assert pri == pytest.approx(ali, 1e-2)
    """Albrecht B+C and Profeta are approximately equal"""

    pr.approximation = 'Profeta'
    pri = pr.get_absolute_intensities(omega=om, gamma=gam)[-1]
    al.approximation = 'Albrecht BC'
    ali = al.get_absolute_intensities(omega=om, gamma=gam)[-1]
    print('pri, ali', pri, ali)
    assert pri == pytest.approx(ali, 1e-2)
    """Albrecht and Placzek are approximately equal"""

    pr.approximation = 'Placzek'
    pri = pr.get_absolute_intensities(omega=om, gamma=gam)[-1]
    al.approximation = 'Albrecht'
    ali = al.get_absolute_intensities(omega=om, gamma=gam)[-1]
    print('pri, ali', pri, ali)
    assert pri == pytest.approx(ali, 1e-2)
Exemplo n.º 2
0
def test_compare_placzek_albrecht_intensities():
    atoms = H2Morse()
    name = 'rrmorse'
    pr = Profeta(atoms,
                 H2MorseExcitedStatesAndCalculator,
                 approximation='Placzek',
                 gsname=name,
                 exname=name,
                 overlap=lambda x, y: x.overlap(y),
                 txt=None)
    pr.run()

    om = 1
    pri, ali = 0, 0
    """Albrecht A and P-P are approximately equal"""

    pr.approximation = 'p-p'
    pri = pr.absolute_intensity(omega=om)[-1]
    al = Albrecht(atoms,
                  H2MorseExcitedStatesAndCalculator,
                  gsname=name,
                  exname=name,
                  overlap=True,
                  approximation='Albrecht A',
                  txt=None)
    ali = al.absolute_intensity(omega=om)[-1]
    print('pri, ali', pri, ali)
    assert pri == pytest.approx(ali, 1e-2)
    """Albrecht B+C and Profeta are approximately equal"""

    pr.approximation = 'Profeta'
    pri = pr.absolute_intensity(omega=om)[-1]
    al.approximation = 'Albrecht BC'
    ali = al.absolute_intensity(omega=om)[-1]
    print('pri, ali', pri, ali)
    assert pri == pytest.approx(ali, 1e-2)
    """Albrecht and Placzek are approximately equal"""

    pr.approximation = 'Placzek'
    pri = pr.absolute_intensity(omega=om)[-1]
    al.approximation = 'Albrecht'
    ali = al.absolute_intensity(omega=om)[-1]
    print('pri, ali', pri, ali)
    assert pri == pytest.approx(ali, 1e-2)