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| Main Authors: | , |
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| Format: | Preprint |
| Published: |
2024
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| Subjects: | |
| Online Access: | https://arxiv.org/abs/2408.03711 |
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Table of Contents:
- Let Möb be the biholomorphic automorphism group of the unit disc of the complex plane, $\mathcal{H}$ be a complex separable Hilbert space and $\mathcal{U}(\mathcal{H})$ be the group of all unitary operators. Suppose $\mathcal{H}$ is a reproducing kernel Hilbert space consisting of holomorphic functions over the poly-disc $\mathbb D^n$ and contains all the polynomials. If $π: \mbox{Möb} \to \mathcal{U}(\mathcal{H})$ is a multiplier representation, then we prove that there exist $λ_1, λ_2, \ldots, λ_n > 0$ such that $π$ is unitarily equivalent to $(\otimes_{i=1}^{n} D_{λ_i}^+)|_{\mbox{Möb}}$, where each $D_{λ_i}^+$ is a holomorphic discrete series representation of Möb. As an application, we prove that if $(T_1, T_2)$ is a Möb - homogeneous pair in the Cowen - Douglas class of rank $1$ over the bi-disc, then each $T_i$ posses an upper triangular form with respect to a decomposition of the Hilbert space. In this upper triangular form of each $T_i$, the diagonal operators are identified. We also prove that if $\mathcal{H}$ consists of symmetric (resp. anti-symmetric) holomorphic functions over $\mathbb D^2$ and contains all the symmetric (resp. anti-symmetric) polynomials, then there exists $λ> 0$ such that $π\cong \oplus_{m = 0}^\infty D^+_{λ+ 4m}$ (resp. $π\cong \oplus_{m=0}^\infty D^+_{λ+ 4m + 2}$).