Hausdorff dimension and conformal dynamics, III: Computation of dimension | Zendy

Curtis T. McMullen | Zendy

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Hausdorff dimension and conformal dynamics, III: Computation of dimension

Author(s) -

Curtis T. McMullen

Publication year - 1998

Publication title -

american journal of mathematics

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 3.818

H-Index - 67

eISSN - 1080-6377

pISSN - 0002-9327

DOI - 10.1353/ajm.1998.0031

Subject(s) - mathematics , hausdorff dimension , julia set , dimension (graph theory) , geodesic , rational function , conformal map , eigenvalues and eigenvectors , minkowski–bouligand dimension , combinatorics , effective dimension , pure mathematics , mathematical analysis , fractal , fractal dimension , physics , quantum mechanics

This paper presents an eigenvalue algorithm for accurately computing the Hausdorff dimension of limit sets of Kleinian groups and Julia sets of rational maps. The algorithm is applied to Schottky groups, quadratic polynomials and Blaschke products, yielding both numerical and theoretical results. Dimension graphs are presented for (a) the family of Fuchsian groups generated by reflections in 3 symmetric geodesics; (b) the family of polynomials f_c(z) = z²+c, c ∈ [-1, 1/2]; and (c) the family of rational maps f_t(z) = z/t + 1/z, t ∈ (0, 1]. We also calculate H.dim (Λ) ≈ 1.305688 for the Apollonian gasket, and H.dim (J(f)) ≈ 1.3934 for Douady's rabbit, where f(z) = z² + c satisfies f³(0) = 0.