Motivated by what one observes dealing with PT-symmetric quantum mechanics, we discuss what happens if a physical system is driven by a diagonalizable Hamiltonian with not all real eigenvalues. In particular, we consider the functional structure related to systems living in finite-dimensional Hilbert spaces, and we show that certain intertwining relations can be deduced also in this case if we introduce suitable antilinear operators. We also analyze a simple model, computing the transition probabilities in the broken and in the unbroken regime.
Bagarello, F. (2016). Non-self-adjoint Hamiltonians with complex eigenvalues. JOURNAL OF PHYSICS. A, MATHEMATICAL AND THEORETICAL, 49(21) [10.1088/1751-8113/49/21/215304].
Non-self-adjoint Hamiltonians with complex eigenvalues
BAGARELLO, Fabio
2016-01-01
Abstract
Motivated by what one observes dealing with PT-symmetric quantum mechanics, we discuss what happens if a physical system is driven by a diagonalizable Hamiltonian with not all real eigenvalues. In particular, we consider the functional structure related to systems living in finite-dimensional Hilbert spaces, and we show that certain intertwining relations can be deduced also in this case if we introduce suitable antilinear operators. We also analyze a simple model, computing the transition probabilities in the broken and in the unbroken regime.
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