Abstract
Let (k(n)) n=1,2,... be a strictly increasing sequence of positive integers . We consider a specific sequence of differential operators Tk(n),{\lambda} , n=1,2,... on the space of entire functions , that depend on the sequence (k(n)) n=1,2,... and the non-zero complex number {\lambda} . We establish the existence of an entire function f , such that for every positive number {\lambda} the set {Tk(n),{\lambda} ,n=1,2,... } is dense in the space of entire functions endowed with the topology of uniform convergence on compact subsets of the complex plane . This provides the best possible strenghthened version of a corresponding result due to Costakis and Sambarino [9] . From this and using a non-trivial result of Weyl which concerns the uniform distribution modulo 1 of certain sequences and Cavalieri principle we can extend our result for a subset of the set of complex numbers with full 2-dimentional Lebesque measure .
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