GCC09_MWAvg¶
- class dust_extinction.averages.GCC09_MWAvg(**kwargs)[source]¶
Bases:
BaseExtModelGordon, Cartledge, & Clayton (2009) Milky Way Average Extinction Curve
- Parameters:
- None
- Raises:
- None
Notes
From Gordon, Cartledge, & Clayton (2009, ApJ, 705, 1320)
Example showing the average curve
import numpy as np import matplotlib.pyplot as plt import astropy.units as u from dust_extinction.averages import GCC09_MWAvg fig, ax = plt.subplots() # generate the curves and plot them x = np.arange(0.3,1.0/0.0912,0.1)/u.micron # define the extinction model ext_model = GCC09_MWAvg() # generate the curves and plot them x = np.arange(ext_model.x_range[0], ext_model.x_range[1],0.1)/u.micron ax.plot(x,ext_model(x),label='GCC09_MWAvg') ax.errorbar(ext_model.obsdata_x_fuse, ext_model.obsdata_axav_fuse, yerr=ext_model.obsdata_axav_unc_fuse, fmt='ko', label='obsdata (FUSE)') ax.errorbar(ext_model.obsdata_x_iue, ext_model.obsdata_axav_iue, yerr=ext_model.obsdata_axav_unc_iue, fmt='bs', label='obsdata (IUE)') ax.errorbar(ext_model.obsdata_x_bands, ext_model.obsdata_axav_bands, yerr=ext_model.obsdata_axav_unc_bands, fmt='g^', label='obsdata (Opt/NIR)') ax.set_xlabel(r'$x$ [$\mu m^{-1}$]') ax.set_ylabel(r'$A(x)/A(V)$') ax.legend(loc='best') plt.show()
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Source code,png,hires.png,pdf)
Attributes Summary
Methods Summary
evaluate(in_x)GCC09_MWAvg function
Attributes Documentation
- Rv = 3.1¶
- x_range = [0.3, 10.964912280701753]¶
Methods Documentation
- evaluate(in_x)[source]¶
GCC09_MWAvg function
- Parameters:
- in_x: float
expects either x in units of wavelengths or frequency or assumes wavelengths in wavenumbers [1/micron]
internally wavenumbers are used
- Returns:
- axav: np array (float)
A(x)/A(V) extinction curve [mag]
- Raises:
- ValueError
Input x values outside of defined range
