Martin Bojowald, Jonathan Guglielmon, Martijn van Kuppeveld
Published 2020-12-18Version 1
Eigenvalues are defined for any element of an algebra of observables and do not require a representation in terms of wave functions or density matrices. A systematic algebraic derivation based on moments is presented here for the harmonic oscillator, together with a perturbative treatment of anharmonic systems. In this process, a collection of inequalities is uncovered which amount to uncertainty relations for higher-order moments saturated by the harmonic-oscillator excited states. Similar saturation properties hold for anharmonic systems order by order in perturbation theory. The new method, based on recurrence relations for moments of a state combined with positivity conditions, is therefore able to show new physical features.
Implementation of Quantum Fourier Transform and Simulation of Wave Functions by Fixed Interaction
On the probability interpretation of wave functions in the Dirac theory
Wave functions and tunneling times for one-dimensional transmission and reflection
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