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Universal Taylor series on specific compact sets

Let $D$ be the open unit disc in the complex plane. We denote by $\mathbb{C}$ the set of complex numbers and consider any compact set $K$ which is disjoint from $D$ and which also has connected complement. Let $A(K)$ denote all the functions $f:K\to \mathbb{C} $ such that $f$ is continuous on $K$ and holomorphic in $K^o$. It is well known that there exist holomorphic functions $f$ on $D$ for which the partial sums $S_n(f)$, n=1,2,... of the Taylor series with center $0$ are dense in $A(K)$ for every $K$ satisfying the properties above. It is also known that the above result fails if we consider the weighted polynomials $2^nS_n(f)$, n=1,2,... instead of $S_n(f)$, n=1,2,.... In the opposite direction, the main result of this work shows that there exist holomorphic functions $f$ on $D$ for which the sequence $2^nS_n(f)$, $n=1,2,...$ is dense in $A(K)$ for specific compact sets $K$. In this case the geometry of $K$ plays a crucial role. We also generalize these results on arbitrary simply connected domains.