Chaos edges of z-logistic maps: Connection between the relaxation and sensitivity entropic indices
Abstract
Chaos thresholds of the z-logistic maps xt+1=1-a|xt|z (z>1; t=0,1,2,...) are numerically analysed at accumulation points of cycles 2, 3 and 5. We verify that the nonextensive q-generalization of a Pesin-like identity is preserved through averaging over the entire phase space. More precisely, we computationally verify t ∞< Sqsenav >(t)/t= t ∞< qsenav >(t)/t λqsenavav, where the entropy Sq (1- Σi piq)/ (q-1) (S1=-Σipi pi), the sensitivity to the initial conditions x(0) 0 x(t)/ x(0), and q x (x1-q-1)/ (1-q) (1 x= x). The entropic index qsenav<1, and the coefficient λqsenavav>0 depend on both z and the cycle. We also study the relaxation that occurs if we start with an ensemble of initial conditions homogeneously occupying the entire phase space. The associated Lebesgue measure asymptotically decreases as 1/t1/(qrel-1) (qrel>1). These results led to (i) the first illustration of the connection (conjectured by one of us) between sensitivity and relaxation entropic indices, namely qrel-1 A (1-qsenav)α, where the positive numbers (A,α) depend on the cycle; (ii) an unexpected and new scaling, namely qsenav(cycle n)=2.5 qsenav(cycle 2)+ ε (ε=-0.03 for n=3, and ε = 0.03 for n=5).
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