Instability of Renormalization
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In the theory of renormalization for classical dynamical systems, e.g. unimodal maps and critical circle maps, topological conjugacy classes are stable manifolds of renormalization. Physically more realistic systems on the other hand may exhibit instability of renormalization within a topological class. This instability gives rise to new phenomena and opens up directions of inquiry that go beyond the classical theory. In phase space it leads to the coexistence phenomenon, i.e. there are systems whose attractor has bounded geometry but which are topologically conjugate to systems whose attractor has degenerate geometry; in parameter space it causes dimensional discrepancy, i.e. a topologically full family has too few dimensions to realize all possible geometric behavior.
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Cited by 1 Pith paper
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A Phase Transition for Circle Maps with a Flat Spot and Different Critical Exponents
Circle maps with flat spots and unequal critical exponents at the boundaries have their parameter space partitioned into two regions by a phase transition boundary determined solely by the exponents.
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