Open AccessSierpiński Gasket as a Martin Boundary II ($\!\textit{\textsf{The Intrinsic Metric}}$)
Author(s) -
Manfred Denker,
Hiroshi Satō
Publication year - 1999
Publication title -
publications of the research institute for mathematical sciences
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.786
H-Index - 39
eISSN - 1663-4926
pISSN - 0034-5318
DOI - 10.2977/prims/1195143423
Subject(s) - sierpinski triangle , mathematics , boundary (topology) , metric (unit) , combinatorics , gasket , mathematical analysis , mathematical physics , pure mathematics , geometry , physics , fractal , thermodynamics , operations management , economics
It is shown in [DS] that the Sierpinski gasket ^aR can be represented as the Martin boundary of a certain Markov chain and hence carries a canonical metric pM induced by the embedding into an associated Martin space M. It is a natural question to compare this metric pM with the Euclidean metric. We show first that the harmonic measure coincides with the normalized //=(log(Af+l)/log2)-dimensional Hausdorff measure with respect to the Euclidean metric. Secondly, we define an intrinsic metric p which is Lipschitz equivalent to pM and then show that p is not Lipschitz equivalent to the Euclidean metric, but the Hausdorff dimension remains unchanged and the Hausdorff measure in p is infinite. Finally, using the metric p, we prove that the harmonic extension of a continuous boundary function converges to the boundary value at every boundary point. §
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