Two-dimensional Ising model 629an exact expression for the magnetization at zero field and showedthat whenT < Tc,
whereTcis given by
2tanh^2 (2J/kTc) = 1, kTc≈ 2. 269185 J, (16.7.11)the magnetization is nonzero, indicating that spontaneous magnetization occurs in two
dimensions. The magnetization is
m={
0 T > Tc
{
1 −[sinh(2βJ)]−^4} 1 / 8
T < Tc. (16.7.12)
In addition to the existence of a spontaneously ordered phase, the heat capacityCh
diverges asT→Tc. The expression for the heat capacity ath= 0 nearT=Tcis
Ch(T)
k=
2
π(
2 J
kTc) 2 [
−ln∣
∣
∣
∣^1 −
T
Tc∣
∣
∣
∣+ ln(
kTc
2 J)
−
(
1 +
π
4)]
, (16.7.13)
which diverges logarithmically. A graph ofChvs.Tis shown in Fig. 16.10. The log-
arithmic divergence emerges because the model is solved in two rather than three
dimensions; in the latter, we would expect a power-law divergence. The other critical
exponents can be derived for the two-dimensional Ising model andareα= 0 (logarith-
mic divergence),β= 1/8,γ= 7/4, andδ= 15. These are the exact exponents for the
d= 2,n= 1 universality class. To date, the three-dimensional Ising model remains
0
TChTc/k
Fig. 16.10Heat capacity of the two-dimensional Ising model (see eqn. (16.7.13)).