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The Segal-Bargmann Transform in Clifford Analysis (2106.09956v1)

Published 18 Jun 2021 in math.CV

Abstract: The Segal-Bargmann transform plays an essential role in signal processing, quantum physics, infinite-dimensional analysis, function theory and further topics. The connection to signal processing is the short-time Fourier transform, which can be used to describe the Segal-Bargmann transform. The classical Segal-Bargmann transform $\mathcal{B}$ maps a square-integrable function to a holomorphic function square-integrable with respect to a Gaussian identity. In signal processing terms, a signal from the position space $L_2(\mathbb{R}m,\mathbb{R})$ is mapped to the phase space of wave functions, or Fock space, $\mathcal{F}2(\mathbb{C}m,\mathbb{C})$. We extend the classical Segal-Bargmann transform to a space of Clifford algebra-valued functions. We show how the Segal-Bargmann transform is related to the short-time Fourier transform and use this connection to demonstrate that $\mathcal{B}$ is unitary up to a constant and maps Sommen's orthonormal Clifford Hermite functions $\left{\phi_{l,k,j}\right}$ to an orthonormal basis of the Segal-Bargmann module $\mathcal{F}2(\mathbb{C}m,\mathcal{C}\ell_m{\mathbb{C}})$. We also lay out that the Segal-Bargmann transform can be expanded to a convergent series with a dictionary of $\mathcal{F}2(\mathbb{C}m,\mathcal{C}\ell_m{\mathbb{C}})$. In other words, we analyse the signal $f$ on one basis and reconstruct it on a basis of the Segal-Bargmann module.

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