622 Critical phenomena
m mg(0,T) g(0,T)m 0 m 0(a) (b)Fig. 16.7Free energy of eqn. (16.5.12),g(0,T). (a)T < Tc. (b)T > Tc.We now turn to the calculation of the critical exponents for the Ising model within
the mean-field theory. From the free energy plot in Fig. 16.7(a), wecan obtain the
exponentβdirectly. Recall thatβdescribes how the discontinuity associated with the
first-order phase transition forT < Tcdepends on temperature asT→Tc, and for
this, we need to know howm 0 depends onTforT < Tc. The dependence ofm 0 onT
is determined by the condition thatg(0,T) be a minimum atm=m 0 :
∂g(0,T)
∂m∣
∣
∣
∣
m=m 0= 0, (16.5.13)
or
2 J(1−βJ)m 0 + 4c 2 m^30 = 02 J
T
(
T−
J
k)
+ 4c 2 m^20 = 02 J
T
(T−Tc) + 4c 2 m^20 = 0m 0 ∼(Tc−T)^1 /^2 , (16.5.14)from which it is clear thatβ= 1/2.
In order to determineδ, the mean-field equation of state is needed, which is pro-
vided by eqn. (16.5.10). Solving eqn. (16.5.10) forhyields
h=kTtanh−^1 (m)−mJ. (16.5.15)