G. Tripathy et W. Van Saarloos, Fluctuation and relaxation properties of pulled fronts: A scenario for nonstandard Kardar-Parisi-Zhang scaling, PHYS REV L, 85(17), 2000, pp. 3556-3559
We argue that while fluctuating fronts propagating into an unstable state s
hould be in the standard Kardar-Parisi-Zhang (KPZ) universality class when
they are pushed, they should not when they are pulled: The lit velocity rel
axation of deterministic pulled fronts makes it unlikely that the KPZ equat
ion is their proper effective long-wavelength low-frequency theory. Simulat
ions in 2D confirm the proposed scenario, and yield exponents beta approxim
ate to 0.29 +/- 0.01, zeta approximate to 0.40 +/- 0.02 for fluctuating pul
led fronts, instead of the (1 + 1)D KPZ values beta = 1/3, zeta = 1/2. Our
value of beta is consistent with an earlier result of Riordan et al., and w
ith a recent conjecture that the exponents are the (2 + 1)D KPZ values.