Lax-Phillips scattering and conservative linear systems: a Cuntz-algebra multidimensional setting
About this Title
Joseph A. Ball and Victor Vinnikov
Publication: Memoirs of the American Mathematical Society
Publication Year 2005: Volume 178, Number 837
ISBNs: 978-0-8218-3768-9 (print); 978-1-4704-0438-3 (online)
MathSciNet review: 2172325
MSC (2000): Primary 47A48; Secondary 46L05, 47A40, 47A45, 47B32, 47B35, 47N70, 93C05
We present a multivariable setting for Lax-Phillips scattering and for conservative, discrete-time, linear systems. The evolution operator for the Lax-Phillips scattering system is an isometric representation of the Cuntz algebra, while the nonnegative time axis for the conservative, linear system is the free semigroup on $d$ letters. The correspondence between scattering and system theory and the roles of the scattering function for the scattering system and the transfer function for the linear system are highlighted. Another issue addressed is the extension of a given representation of the Cuntz-Toeplitz algebra (i.e., a row isometry) to a representation of the Cuntz algebra (i.e., a row unitary); the solution to this problem relies on an extension of the Szegö factorization theorem for positive Toeplitz operators to the Cuntz-Toeplitz algebra setting. As an application, we obtain a complete set of unitary invariants (the characteristic function together with a choice of “Haplitz” extension of the characteristic function defect) for a row-contraction on a Hilbert space.
Graduate students and research mathematicians interested in analysis.
Table of Contents
- 1. Introduction
- 2. Functional models for row-isometric/row-unitary operator tuples
- 3. Cuntz scattering systems
- 4. Unitary colligations
- 5. Scattering, systems and dilation theory: the Cuntz-Toeplitz Setting