Exemplo n.º 1
0
def plot_energy_zenith(cq, particle=None):
    """Energy, Zenith"""

    e_bins = numpy.arange(11, 18.6, 0.5) - 0.25
    #     e_bins = sorted(cq.available_parameters('energy', particle=particle))
    #     e_bins.append(e_bins[-1] + 0.5)
    z_bins = numpy.arange(0, 67.6, 7.5) - 3.75
    #     z_bins = sorted(cq.available_parameters('zenith', particle=particle))
    #     z_bins.append(z_bins[-1] + 7.5)

    simulations = cq.simulations(particle=particle)
    energy = numpy.log10(simulations['energy'])
    zenith = numpy.degrees(simulations['zenith'])

    counts, e_bins, z_bins = numpy.histogram2d(energy,
                                               zenith,
                                               bins=[e_bins, z_bins])
    graph = artist.Plot()  # axis='semilogx'
    graph.histogram2d(numpy.sqrt(counts), e_bins, z_bins, type='area')
    graph.set_xlimits(min=10, max=19)
    graph.set_xlabel(r'Energy [Log10 \si{\eV}]')
    graph.set_ylabel(r'Zenith [\si{\degree}]')
    graph.set_title('Number of simulations per energy and zenith angle')
    if particle is not None:
        graph.save_as_pdf('energy_zenith_%s' % particle)
    else:
        graph.save_as_pdf('energy_zenith')
Exemplo n.º 2
0
def plot_n_leptons(cq):
    """Energy, Zenith"""

    color_styles = cycle((
        'black,',
        'red,',
        'blue,',
        'orange,',
        'gray,',
        'green,',
    ))

    n_bins = numpy.linspace(0, 8, 300)
    graph = artist.Plot()
    energies = sorted(cq.available_parameters('energy'))
    for e, c in zip(energies, color_styles):
        zeniths = sorted(cq.available_parameters('zenith', energy=e))
        line_styles = cycle(('solid', 'dashed', 'dotted', 'densely dashed'))
        for z, l in zip(zeniths[::3], line_styles):
            sims = cq.simulations(energy=e, zenith=z)
            n_leptons = sims['n_muon'] + sims['n_electron']
            if len(n_leptons) < 200:
                continue
            counts, n_bins = numpy.histogram(numpy.log10(n_leptons),
                                             bins=n_bins,
                                             density=True)
            graph.histogram(counts, n_bins, linestyle=c + l)
    graph.set_xlimits(min=0, max=9)
    graph.set_ylimits(min=0)
    graph.set_xlabel('Number of leptons [N]')
    graph.set_ylabel('Count')
    #     graph.set_title('Distribution of number of leptons per energy and '
    #                     'zenith angle')
    graph.save_as_pdf('n_leptons')
Exemplo n.º 3
0
def plot_azimuth(azimuth):
    """Azimuths"""
    bins = get_unique(azimuth)
    bins.append(bins[-1] + bins[-1])
    counts, bins = numpy.histogram(azimuth, bins=bins)
    graph = artist.Plot()
    graph.plot(bins[:-1], counts)
    graph.set_xlabel(r'Azimuth [\si{\radian}]')
    graph.set_ylabel('Count')
    graph.set_ylimits(min=0)
    graph.set_title('Number of simulations per azimuth angle')
    graph.save_as_pdf('azimuth')
Exemplo n.º 4
0
def plot_zenith(zenith):
    """Zeniths"""
    bins = get_unique(zenith)
    bins.append(bins[-1] + bins[-1])
    counts, bins = numpy.histogram(zenith, bins=bins)
    graph = artist.Plot()
    graph.plot(bins[:-1], counts)
    graph.set_xlabel('Zenith [rad]')
    graph.set_ylabel('Count')
    graph.set_ylimits(min=0)
    graph.set_title('Number of simulations per zenith angle')
    graph.save_as_pdf('zenith')
Exemplo n.º 5
0
def plot_energy(energy):
    """Energies"""
    bins = get_unique(energy)
    bins.append(bins[-1] * 10)
    counts, bins = numpy.histogram(energy, bins=bins)
    graph = artist.Plot(axis='semilogx')
    graph.plot(bins[:-1], counts)
    graph.set_xlabel('Energy [eV]')
    graph.set_ylabel('Count')
    graph.set_ylimits(min=0)
    graph.set_title('Number of simulations per primary energy')
    graph.save_as_pdf('energy')