Slow escape in tracts
classification
🧮 math.DS
math.CV
keywords
tractsarbitrarilyescapepointsproveresultsslowlyboundary
read the original abstract
Let $f$ be a transcendental entire function. By a result of Rippon and Stallard, there exist points whose orbit escapes arbitrarily slowly. By using a range of techniques to prove new covering results, we extend their theorem to prove the existence of points which escape arbitrarily slowly within logarithmic tracts and tracts with certain boundary properties. We then give examples to illustrate our results in a variety of tracts.
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