Abstract
By using an appropriate space of distributions, epsilon', we derive the chaos decomposition property of the Hilbert space of quadratic integrable functionals with respect to the Pascal white noise measure Lambda(NB). The constructed decomposition issused to define a nuclear triple (epsilon)(theta) subset of L-2(epsilon', Lambda(NB)) subset of (epsilon)(theta)*of test and generalized functions, where theta is a Young function satisfying some suitable conditions. A general characterization theorems are proven for the Pascal white noise distributions, white noise test functions and white noise operators in terms of analytical functions with growth condition of exponential type. By using appropriate renormalization procedure, we obtain the representation of the square of white noise obtained by Accardi-Franz-Skeide in Ref. 5. Finally, we investigate the main aim of this paper which is to give unitary equivalent representations of the Witt algebra in the basis of Pascal white noise theory.