Continuous percolation phase transitions of random networks under a generalized Achlioptas process.

Using finite-size scaling, we have investigated the percolation phase transitions of evolving random networks under a generalized Achlioptas process (GAP). During this GAP, the edge with a minimum product of two connecting cluster sizes is taken with a probability p from two randomly chosen edges. This model becomes the Erdös-Rényi network at p=0.5 and the random network under the Achlioptas process at p=1. Using both the fixed point of the size ratio s{2}/s{1} and the straight line of lns{1}, where s{1} and s{2} are the reduced sizes of the largest and the second-largest cluster, we demonstrate that the phase transitions of this model are continuous for 0.5 ≤ p ≤ 1. From the slopes of lns{1} and ln(s{2}/s{1})' at the critical point, we get critical exponents β and ν of the phase transitions. At 0.5 ≤ p ≤ 0.8, it is found that β, ν, and s{2}/s{1} at critical point are unchanged and the phase transitions belong to the same universality class. When p ≥ 0.9, β, ν, and s{2}/s{1} at critical point vary with p and the universality class of phase transitions depends on p.