182 SOLUTIONSThe condition for Bose condensation tooccur isthat, at someparticular
temperature, thechemicalpotentialgoes tozero. Then the number of
particles outside the Bose condensatewill bedetermined by the integralThisintegral should convergesinceNis a givennumber.Expanding around
in order todetermineconditions forconvergence of the integralyieldsSo, this integraldiverges at andthere is noBosecondensation
for thisregion. (Forinstance, in two dimensions, particleswithordinary
dispersion law wouldnot Bose-condense.) Inthreedimensions,
so thatBosecondensationdoesoccur.
4.72 How Hot the Sun? (Stony Brook)
(See Problem 2 of Chapter 4 in Kittel and Kroemer, Thermal Physics.) The
distribution ofphotonsover the quantum states with energy
is given by Planck’s distribution (the Bose–Einstein distributionwith
chemicalpotential
where is the temperature of the radiation which we consider equal to the
temperature of the surface of the Sun. To find the total energy, we can
replace the sum overmodes by an integral over frequencies:
where the factor 2accounts for the two transversephotonpolarizations.
The energy of radiation in an interval andunitvolume istherefore