P-V Criticality of the FRW Universe in the Novel 4D Gauss-Bonnet Gravity

In this paper, we study the thermodynamics especially the $P$-$V$ criticality of the Friedmann-Robertson-Walker (FRW) universe in the novel 4-dimensional Gauss-Bonnet gravity, where we define the thermodynamic pressure $P$ from the cosmological constant $Lambda$ as $P=-frac{Lambda}{8pi}$. We obtain the first law of thermodynamics and equation of state of the FRW universe. We find that, if the Gauss-Bonnet coupling constant $alpha$ is positive, there is no $P$-$V$ phase transition. If $alpha$ is negative, there are $P$-$V$ phase transitions and critical behaviors within $-1/3leqomegaleq1/3$. Particularly, there are two critical points of the $P$-$V$ criticality in the case $alpha<0,~-1/3<omega<1/3$. We investigate these $P$-$V$ criticality around the critical points, and calculate the critical exponents. We find that these critical exponents in the $-1/3<omegaleq1/3$ case are consistent with those in the mean field theory, and hence satisfy the scaling laws.