Norm attaining dual truncated Toeplitz operators

Abstract

This paper develops a complete framework for understanding when a dual truncated Toeplitz operator (DTTO) attains its norm. Given a nonconstant inner function u, the DTTO associated with a symbol ∈ L∞(T) acts on the orthogonal complement Ku = uH2 H2- of the model space Ku = H2 uH2. Assuming \|\|∞=1, we give a characterization of the norm attaining property of D and describe all extremal vectors. A sharp analytic and coanalytic dichotomy emerges D attains its norm precisely when the symbol admits either =u++ or =u--, where , are inner functions. The first condition corresponds to norm attainment on the analytic component uH2, while the second corresponds to norm attainment on the coanalytic component H2- via the natural conjugation Cu. A key feature of the theory is that the dual compressed shift Du (the case (z)=z) always attains its norm. We also obtain a coupled Toeplitz, Hankel system governing analytic and coanalytic components of extremal vectors, and provide several concrete examples including nonanalytic unimodular symbols illustrating how the factorization criteria govern norm attainment.