Abstract
Abstract The robustness of the universality class concept of the chaotic transition was investigated by analytically obtaining its critical exponent for a wide class of maps. In particular, we extended the existing one-dimensional chaotic maps, thereby generalizing the invariant density function from the Cauchy distribution by adding one parameter. This generalization enables the adjustment of the power exponents of the density function and superdiffusive behavior. We proved that these generalized one-dimensional chaotic maps are exact (a stronger condition than ergodicity) to obtain the critical exponent of the Lyapunov exponent from the phase average. Furthermore, we proved that the critical exponent of the Lyapunov exponent is $\frac{1}{2}$ regardless of the power exponent of the density function and is thus universal. This result can be considered as rigorous proof of the universality of the critical exponent of the Lyapunov exponent for a countably infinite number of maps.
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