Cauchy-type integrals and singular measures (Q2849199)

Let \(\mu\) be a finite singular Borel measure on the unit circle. Denote by \({\mathcal B}(\mu)\) the set of all functions \(f\in L^{2}(\mu)\) such that the norms of the operators NEWLINE\[NEWLINE h\mapsto \int\frac{f(x)-f(\xi)}{1-r\bar{\xi}z}h(\xi)\,d\mu(\xi), \quad h\in L^{2}(\mu), NEWLINE\]NEWLINE are uniformly bounded when \(r\in(0,1)\).NEWLINENEWLINELet \(H^{2}\) be the standard Hardy space and \(\theta\) be an inner function. Denote \(K_{\theta}=H^{2}\ominus\theta H^{2}\). Let \(P_{\theta}\) be the orthogonal projection from \(H^{2}\) onto \(K_{\theta}\). For a function \(\psi\in L^{2}\), the truncated Toeplitz operator is defined by \(A_{\psi}h=P_{\theta}(\psi h)\), \(h\in K_{\theta}\). The symbol \(\psi\) is assumed to be such that \(A_{\psi}\) defined on the dense subset of all bounded functions from \(K_{\theta}\) is a bounded operator. There are found necessary and sufficient conditions for an operator on \(K_{\theta}\) to be a truncated Toeplitz operator. It is shown that \(f\in{\mathcal B}(\mu)\) if and only if \(f\) is associated with some truncated Toeplitz operator. From the further results, we mention assertions connected with the boundary behavior of the functions from \(K_{\theta}\).