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# Making Gaussians Constrained by the FWHM

Firstly my maths is limited, so this question may have a simple answer. So, I am using the following equation to make guassian distributions:

``````height * np.exp( - ((x-mean)/width)**2 )
``````

When I make gussians with the above equation where is the width of the peak applied? Is it at full width half maximum? I made the following gaussian with the following values:

``````height = 5
mean = 100
width = 10
``````

When I then calculate the FWHM it is `16.6510941453` so the peak width cannot be applied at the FWHM. Where is it applied?

I am trying to constrain the FWHM so the FWHM is 10x smaller than that of the mean. So in the above example I would of liked the gaussian to have a FWHM of 10 at the mean of 100 at a peak height of 5.

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The formula for the gaussian distribution is here. Sigma is the standard deviation. Mu is the mean. Solve for f() = 0.5Mu and that will give you your answer – Joel Cornett May 16 '12 at 17:28
isnt Mu the centre point of the peak? – Harpal May 16 '12 at 17:49
Oh yeah, sorry. I meant solve for x for 0.5*f(Mu) – Joel Cornett May 16 '12 at 18:00
There is a nice wikipedia article on FWHM that you might find useful: en.wikipedia.org/wiki/Full_width_at_half_maximum – Hooked May 17 '12 at 14:08

In your equation, the width parameter is actually `sigma`, which is the standard deviation of a Gaussian, not FWHM. Below are functions to convert between the two of these properties

``````from numpy import sqrt, log

def sigma2Gamma(sigma):
'''Function to convert standard deviation (sigma) to FWHM (Gamma)'''
return sigma * sqrt(2 * log(2)) * 2 / sqrt(2)

Gamma = sigma2Gamma(10)
print Gamma
# prints 16.651092223153956, which is what you saw in your graph

def Gamma2sigma(Gamma):
'''Function to convert FWHM (Gamma) to standard deviation (sigma)'''
return Gamma * sqrt(2) / ( sqrt(2 * log(2)) * 2 )

sigma = Gamma2sigma(10)
print sigma
# prints 6.0056120439322491, which is the standard deviation that will
# give a FWHM of 10
``````

I would recommend changing your equation to

``````height * np.exp( - ((x-mean)/Gamma2sigma(width))**2 )
``````

if you want to input the FWHM and not the standard deviation

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Thanks you for showing me where i was going wrong. – Harpal May 16 '12 at 18:26