Installation

This package requires xraylib and compwizard. On Windows, xraylib can be installed through the Anaconda interface.

conda install -c conda-forge xraylib=4.0.0

pip instal compwizard

For further information on how to install xraylib on other operational systems, check xraylib wiki.

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This module can be installed with:

pip install xfit

Usage

This module provides the "Spectrum" class. It is possible to initialize this class with a numpy nd.array or loading an *.mca or *.spt file, by giving the path. For the continuum estimation algorithm, refer to the Continuum.py file.
test.mca file provides a typical *.mca file to use with the example.py script provided.

Example 1

import xfit
import numpy as np
import matplotlib.pyplot as plt
path = r"./test.mca"
pool_file = r"./pool.txt"
Spec = xfit.Spectrum(file_path=path)
Spec.calibrate() #if no arguments are passed, it gets the parameters from the mca or spt header
Spec.estimate_continuum(30, 11, 11, 3) #iterations, filter window, sav-gol window, sav-gol order
Spec.fit_fano_and_noise()
Spec.create_pool(pool_file)
Spec.fit()

#Plot ------
fig, ax = plt.subplots()
ax.plot(Spec.energyaxis, Spec.data, color="black", label="Data")
ax.plot(Spec.energyaxis, Spec.continuum, color="green", label="Continuum")
for element in Spec.areas.keys():
     ax.plot(Spec.energyaxis, 
            Spec.plots[element],
            label=element+" fit result", 
            color=ElementColors[element],
            linestyle="--")
ax.legend(loc=1, fancybox=1)
ax.set_yscale("log")
plt.show()

0.11400000005960464 80.00951851146041 (Fano and Noise values found, respectively)

Example 2

import xfit
import numpy as np
ydata = np.arange(1024)
fit_pool = {}
fit_pool["elements"] = {}
fit_pool["elements"]["Cu"] = ["KA1","KA2","KB1","KB3"]
fit_pool["bg"] = 1 #Forces the use of continuum estimation for the fit
Spec = xfit.Spectrum(array=ydata)
Spec.calibrate(x=channels, y=energies)
Spec.estimate_continuum(30, 11, 11, 3)
Spec.fit_fano_and_noise()
Spec.pool = fit_pool
Spec.fit()
#or simply: Spec.fit(pool=fit_pool)

#Plot ------
fig, ax = plt.subplots()
ax.plot(Spec.energyaxis, Spec.data, color="black", label="Data")
ax.plot(Spec.energyaxis, Spec.continuum, color="green", label="Continuum")
for element in Spec.areas.keys():
     ax.plot(Spec.energyaxis, 
            Spec.plots[element],
            label=element+" fit result", 
            color=ElementColors[element],
            linestyle="--")
ax.legend(loc=1, fancybox=1)
ax.set_yscale("log")
plt.show()