int (intensity at 296K): 2.12e-29 [cm-1/(molecule/cm-2)]

A (Einstein A coefficient): 3.62e-05 [s-1]

El (lower-state energy): 2.35e+03 [cm-1]

s.lines index: 0', 'CO2 [P52](10⁰0 r=2)->(10⁰1 r=1)

int (intensity at 296K): 7.49e-26 [cm-1/(molecule/cm-2)]

A (Einstein A coefficient): 0.0867 [s-1]

El (lower-state energy): 2.36e+03 [cm-1]

s.lines index: 1', 'CO2 [Q41](11¹0 r=2)->(03³1 r=1)

int (intensity at 296K): 1.13e-29 [cm-1/(molecule/cm-2)]

A (Einstein A coefficient): 5.33e-05 [s-1]

El (lower-state energy): 2.6e+03 [cm-1]

s.lines index: 2', ..., 'CO2 [P34](20⁰0 r=2)->(20⁰1 r=1)

int (intensity at 296K): 8.86e-28 [cm-1/(molecule/cm-2)]

A (Einstein A coefficient): 0.0691 [s-1]

El (lower-state energy): 3.13e+03 [cm-1]

s.lines index: 329', 'CO2 [P5](10⁰1 r=2)->(10⁰2 r=1)

int (intensity at 296K): 3.12e-29 [cm-1/(molecule/cm-2)]

A (Einstein A coefficient): 0.196 [s-1]

El (lower-state energy): 3.62e+03 [cm-1]

s.lines index: 330', 'CO2 [P32](20⁰0 r=3)->(20⁰1 r=2)

int (intensity at 296K): 2.21e-27 [cm-1/(molecule/cm-2)]

A (Einstein A coefficient): 0.0789 [s-1]

El (lower-state energy): 2.96e+03 [cm-1]

s.lines index: 331'], dtype=object), 'type': 'bar', 'width': 0.20010000000436776, 'x': array([2380.016336, 2380.081298, 2380.114148, ..., 2399.778997, 2399.900272, 2399.962486]), 'y': array([5.52334543e-27, 2.06836810e-23, 8.10163669e-27, ..., 5.02840796e-24, 1.19565901e-24, 6.37839163e-24])}, {'name': 'radiance', 'type': 'scatter', 'x': array([2380. , 2380.01, 2380.02, ..., 2399.99, 2400. , 2400.01]), 'y': array([nan, nan, nan, ..., nan, nan, nan]), 'yaxis': 'y2'}], 'layout': {'hovermode': 'closest', 'showlegend': False, 'template': '...', 'title': {'text': 'Line Survey'}, 'xaxis': {'range': [2380.0, 2400.010000000437], 'title': {'text': 'Wavenumber (cm-1)'}}, 'yaxis': {'range': [-27, -17], 'tickfont': {'color': '#1f77b4'}, 'title': {'font': {'color': '#1f77b4'}, 'text': 'Linestrength (cm-1/(molecule/cm-2))'}, 'type': 'log'}, 'yaxis2': {'overlaying': 'y', 'side': 'right', 'tickfont': {'color': '#ff7f0e'}, 'title': {'font': {'color': '#ff7f0e'}, 'text': 'Radiance (mW/cm2/sr/cm-1)'}, 'type': 'log'}} }) | .. code-block:: default from radis import calc_spectrum s = calc_spectrum( wavenum_min=2380, wavenum_max=2400, mole_fraction=400e-6, path_length=100, # cm Tgas=1500, molecule="CO2", isotope=[1], databank="hitran", export_lines=True, ) s.apply_slit(2, "nm") s.line_survey(overlay="radiance", barwidth=0.01) .. rst-class:: sphx-glr-timing **Total running time of the script:** ( 0 minutes 57.898 seconds) .. _sphx_glr_download_auto_examples_plot_line_survey.py: .. only:: html .. container:: sphx-glr-footer sphx-glr-footer-example .. container:: sphx-glr-download sphx-glr-download-python :download:`Download Python source code: plot_line_survey.py