Exemplo n.º 1
0
    gssn_1: oc.Gaussian = oc.Gaussian(channels=1, width=[5.0],
                                      field_name='field 1 to be saved in file')
    field_saver_1: oc.SaveField = oc.SaveField()
    gssn_2: oc.Gaussian = oc.Gaussian(channels=1, width=[10.0],
                                      field_name='field 2 to be saved in file')
    field_saver_2: oc.SaveField = oc.SaveField()

    lt.add_links((gssn_1[0], field_saver_1[0]), (gssn_2[0], field_saver_2[0]))
    lt.run(gssn_1, gssn_2)

    fields: List[oc.Field] = field_saver_1.fields + field_saver_2.fields

    lt_: oc.Layout = oc.Layout()
    load_field: oc.LoadField = oc.LoadField(fields=fields)

    lt.run(load_field)

    fields = load_field[0].fields

    x_datas: List[np.ndarray] = [fields[0].time, fields[1].time,
                                 fields[0].nu, fields[1].nu]
    y_datas: List[np.ndarray] = [oc.temporal_power(fields[0].channels),
                                 oc.temporal_power(fields[1].channels),
                                 oc.spectral_power(fields[0].channels),
                                 oc.spectral_power(fields[1].channels)]

    oc.plot2d(x_datas, y_datas, x_labels=["t", "t", "nu","nu"],
              y_labels=["P_t", "P_t", "P_nu", "P_nu"],
              plot_titles=["Gaussian pulse which has been saved and loaded"],
              plot_groups=[0,0,1,1])
Exemplo n.º 2
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                                     noise=100 * np.ones(domain.noise_samples))
    filter: oc.GaussianFilter = oc.GaussianFilter(nu_bw=nu_bw,
                                                  nu_offset=0.,
                                                  order=1,
                                                  center_nu=center_nu)
    lt.add_link(pulse[0], filter[0])
    lt.run(pulse)
    plot_titles: List[str] = [
        "Original pulse", r"After Gaussian filter with "
        "frequency bandwidth {} THz.".format(round(nu_bw, 2))
    ]
    plot_titles += plot_titles
    y_datas: List[np.ndarray] = [
        oc.temporal_power(pulse[0][0].channels),
        oc.temporal_power(filter[1][0].channels),
        oc.spectral_power(pulse[0][0].channels),
        oc.spectral_power(filter[1][0].channels), pulse[0][0].noise,
        filter[1][0].noise
    ]
    x_datas: List[np.ndarray] = [
        pulse[0][0].time, filter[1][0].time, pulse[0][0].nu, filter[1][0].nu,
        pulse[0][0].domain.noise_nu, filter[1][0].domain.noise_nu
    ]
    x_labels: List[str] = ['t', 't', 'nu', 'nu', 'nu', 'nu']
    y_labels: List[str] = ['P_t', 'P_t', 'P_nu', 'P_nu', 'P (W)', 'P (W)']
    nu_range = (center_nu - .1, center_nu + .1)
    time_range = (bit_width / 2. + 75., bit_width / 2. - 75.)
    noise_range = (x_datas[-1][0], x_datas[-1][-1])
    x_ranges = [time_range, time_range, nu_range, nu_range, noise_range]

    oc.plot2d(x_datas,
Exemplo n.º 3
0
    rep_freq: List[float] = [0.03, 0.04]
    offset_nu: List[float] = [1.56, -1.6]
    chirp: List[float] = [0.5, 0.1]
    init_phi: List[float] = [1.0, 0.0]

    sech = oc.Sech(channels=channels,
                   center_lambda=center_lambda,
                   position=position,
                   fwhm=width,
                   peak_power=peak_power,
                   rep_freq=rep_freq,
                   offset_nu=offset_nu,
                   chirp=chirp,
                   init_phi=init_phi,
                   save=True)

    lt.run(sech)

    x_datas: List[np.ndarray] = [sech[0][0].time, sech[0][0].nu]
    y_datas: List[np.ndarray] = [
        oc.temporal_power(sech[0][0].channels),
        oc.spectral_power(sech[0][0].channels)
    ]

    oc.plot2d(x_datas,
              y_datas,
              x_labels=["t", "nu"],
              y_labels=["P_t", "P_nu"],
              plot_titles=["Sech pulse"],
              split=True)
Exemplo n.º 4
0
    cw: oc.CW = oc.CW(channels=channels,
                      center_lambda=center_lambda,
                      peak_power=peak_power,
                      offset_nu=offset_nu,
                      init_phi=init_phi,
                      save=True)

    lt.run(cw)

    plot_titles: List[str] = [
        "CW pulse temporal power", "CW pulse spectral power",
        "CW pulse temporal phase", "CW pulse spectral phase"
    ]
    x_datas: List[np.ndarray] = [
        cw[0][0].time, cw[0][0].nu, cw[0][0].time, cw[0][0].nu
    ]
    y_datas: List[np.ndarray] = [
        oc.temporal_power(cw[0][0].channels),
        oc.spectral_power(cw[0][0].channels),
        oc.temporal_phase(cw[0][0].channels),
        oc.spectral_phase(cw[0][0].channels)
    ]

    oc.plot2d(x_datas,
              y_datas,
              x_labels=["t", "nu", "t", "nu"],
              y_labels=["P_t", "P_nu", "phi_t", "phi_nu"],
              plot_titles=plot_titles,
              split=True,
              line_opacities=[0.2])
Exemplo n.º 5
0
    init_phi: List[float] = [1.0, 0.0]
    beta_2: List[float] = [-19.0, -17.0]
    gamma: List[float] = [4.3, 4.6]

    soli = oc.Soliton(channels=channels,
                      center_lambda=center_lambda,
                      position=position,
                      width=width,
                      rep_freq=rep_freq,
                      offset_nu=offset_nu,
                      order=order,
                      init_phi=init_phi,
                      beta_2=beta_2,
                      gamma=gamma,
                      save=True)

    lt.run(soli)

    x_datas: List[np.ndarray] = [soli[0][0].time, soli[0][0].nu]
    y_datas: List[np.ndarray] = [
        oc.temporal_power(soli[0][0].channels),
        oc.spectral_power(soli[0][0].channels)
    ]

    oc.plot2d(x_datas,
              y_datas,
              x_labels=["t", "nu"],
              y_labels=["P_t", "P_nu"],
              plot_titles=["Soliton pulse"],
              split=True)
Exemplo n.º 6
0
    order: List[int] = [1, 2, 1]
    chirp: List[float] = [0.0, 0.5, 0.1]
    init_phi: List[float] = [0.0, 1.0, 0.0]

    gssn = oc.Gaussian(channels=channels,
                       center_lambda=center_lambda,
                       position=position,
                       width=width,
                       peak_power=peak_power,
                       rep_freq=rep_freq,
                       offset_nu=offset_nu,
                       order=order,
                       chirp=chirp,
                       init_phi=init_phi,
                       save=True)

    lt.run(gssn)

    x_datas: List[np.ndarray] = [gssn[0][0].time, gssn[0][0].nu]
    y_datas: List[np.ndarray] = [
        oc.temporal_power(gssn[0][0].channels),
        oc.spectral_power(gssn[0][0].channels)
    ]

    oc.plot2d(x_datas,
              y_datas,
              x_labels=["t", "nu"],
              y_labels=["P_t", "P_nu"],
              plot_titles=["Gaussian pulse"],
              split=True)
Exemplo n.º 7
0
                     STEP_UPDATE=False,
                     save_all=True,
                     INTRA_COMP_DELAY=True,
                     INTRA_PORT_DELAY=False,
                     INTER_PORT_DELAY=False,
                     noise_ode_method='rk1',
                     NOISE=True)
    lt.add_link(pulse[0], fiber[0])
    lt.run(pulse)

    x_datas: List[np.ndarray] = [
        pulse[0][0].nu, fiber[1][0].nu, pulse[0][0].time, fiber[1][0].time
    ]

    y_datas: List[np.ndarray] = [
        oc.spectral_power(pulse[0][0].channels),
        oc.spectral_power(fiber[1][0].channels),
        oc.temporal_power(pulse[0][0].channels),
        oc.temporal_power(fiber[1][0].channels)
    ]

    x_labels: List[str] = ['nu', 'nu', 't', 't']
    y_labels: List[str] = ['P_nu', 'P_nu', 'P_t', 'P_t']
    plot_titles: List[str] = [
        "Original Pulses", "Pulses at the end of the fiber"
    ]
    plot_titles.extend(plot_titles)

    oc.plot2d(x_datas,
              y_datas,
              x_labels=x_labels,