An analytic relation between the fractional parameter in the Mittag-Leffler function and the chemical potential in the Bose-Einstein distribution through the analysis of the NASA COBE monopole data

Abstract

To extend the Bose-Einstein (BE) distribution to fractional order, we turn our attention to the differential equation, df/dx =-f-f2. It is satisfied with the stationary solution, f(x)=1/(ex+μ-1), of the Kompaneets equation, where μ is the constant chemical potential. Setting R=1/f, we obtain a linear differential equation for R. Then, the Caputo fractional derivative of order p (p>0) is introduced in place of the derivative of x, and fractional BE distribution is obtained, where function ex is replaced by the Mittag-Leffler (ML) function Ep(xp). Using the integral representation of the ML function, we obtain a new formula. Based on the analysis of the NASA COBE monopole data, an identity p e-μ is found.