# FWHM calculation using python

I am trying to calculate the FWHM of spectra using python. The spectral description (I'm talking in terms of the physics) for me it's bit complicated and I can't fit the data using some simple Gaussian or Lorentizian profile.

So far I managed to manage interpolation of the data and draw a straight line parallel to the X axis through the half maxima.

How can I find the coordinates of the intersection of the two lines on both sides of the peak?

I know if I take the cursor in those points it will give me the coordinates but I want to automate this process so that it becomes much more user friendly. How can I do that? ``````from matplotlib import pyplot as mp
import numpy as np

def peak(x, c):
return np.exp(-np.power(x - c, 2) / 16.0)

def lin_interp(x, y, i, half):
return x[i] + (x[i+1] - x[i]) * ((half - y[i]) / (y[i+1] - y[i]))

def half_max_x(x, y):
half = max(y)/2.0
zero_crossings = (signs[0:-2] != signs[1:-1])
zero_crossings_i = np.where(zero_crossings)
return [lin_interp(x, y, zero_crossings_i, half),
lin_interp(x, y, zero_crossings_i, half)]

# make some fake data
x=np.linspace(0,20,21)
y=peak(x,10)

# find the two crossing points
hmx = half_max_x(x,y)

fwhm = hmx - hmx
print("FWHM:{:.3f}".format(fwhm))

# a convincing plot
half = max(y)/2.0
mp.plot(x,y)
mp.plot(hmx, [half, half])
mp.show()
``````

The `(x, y)` coordinates of the two points are `(hmx, half)` and `(hmx, half)`.

• Hi, Just wondering if the baseline/background is not in 0, does that mean the height needs to be subtracted to that baseline/background? Thanks! Jun 15, 2020 at 1:45

In addition to the previos answer, in case of baseline is not 0, then ((max-min)/2) + min. That's what I did to solve my problem. Tks.