Hybrid form of quantum theory with non-Hermitian Hamiltonians (2211.10633v1)
Abstract: In 1956, Freeman Dyson discovered that the practical solution of Schr\"{o}dinger equation may be facilitated when one replaces the standard self-adjoint Hamiltonian $\mathfrak{h}=\mathfrak{h}\dagger$ by its manifestly non-Hermitian isospectral avatar $H =\Omega{-1} \mathfrak{h} \Omega$ with $\Omega\dagger\Omega=\Theta \neq I$. The standard unitary interpretation of the evolution can be then achieved either by the operator transformation'' (OT) reconstruction of $\mathfrak{h}$, or via a metric-amendment (MA) change of the Hilbert space, ${\cal H}_{auxiliary}\to {\cal H}_{physical}$. In our present letter we describe an alternative Hermitization of a
hybrid form'' (HF) which simply combines the OT model-building strategy with the MA model-building strategy. The merits of the approach are illustrated using a schematic two-state quantum system.