are also known in statistics as Cauchy distributions. The Breit-Wigner (also known as the Lorentz) distribution is a generalized form originally introduced [Breit36] to describe the cross-section of resonant nuclear scattering in the form
which had been derived from the transition probability of a resonant state with known lifetime ([Bohr69], [Breit59],
[Fermi51],
[Paul69]). In this form, the integral over all energies is 1.
The variance and higher moments of the Breit-Wigner distribution are infinite. The distribution is fully defined by E0,
the position of its maximum (about which the distribution is symmetric), and by 
, the full width at half maximum (FWHM), as obviously
In the above form, the Breit-Wigner distribution has also been widely used
for describing the non-interfering production cross-section of particle
resonant states, the parameters E0 (= mass of resonance)
and
(= width of resonance) being determined from the observed data.
Observed Breit-Wigner distributions usually have a width larger than
,
being a convolution with a resolution function due to measurement uncertainties.
here being the
standard deviation. In the diagram below, both curves are normalized to the
same integral; a normal distribution with the same FWHM as the Breit-Wigner
distribution would be even narrower.
