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Time-dependent pseudo-Hermitian Hamiltonians and a hidden geometric aspect of quantum mechanics

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A non-Hermitian operator H defined in a Hilbert space with inner product may serve as the Hamiltonian for a unitary quantum system if it is ηpseudo-Hermitian for a metric operator (positive-definite automorphism) η. The latter defines the inner product of the physical Hilbert space Hh of the system. For situations where some of the eigenstates of H depend on time, η becomes time-dependent. Therefore, the system has a non-stationary Hilbert space. Such quantum systems, which are also encountered in the study of quantum mechanics in cosmological backgrounds, suffer from a conflict between the unitarity of time evolution and the unobservability of the Hamiltonian. Their proper treatment requires a geometric framework which clarifies the notion of the energy observable and leads to a geometric extension of quantum mechanics (GEQM). We provide a general introduction to the subject, review some of the recent developments, offer a straightforward description of the Heisenberg-picture formulation of the dynamics for quantum systems having a time-dependent Hilbert space, and outline the Heisenberg-picture formulation of dynamics in GEQM.

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Multidisciplinary Digital Publishing Institute (MDPI)

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Physics

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Entropy

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10.3390/E22040471

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