Abstract
AbstractPrigogine has emphasized that there is a “degeneracy” in quantum theory, where the Hamiltonian plays a dual role as (a) the generator of time evolution and (b) the energy observable. This prevents the exact treatment of irreversible phenomena on the microscopic quantum mechanical level. The removal of the aforementioned degeneracy can be achieved with the aid of a star‐unitary similarity transformation depending explicitly on the star‐Hermitian operator of the “intrinsic time”. Its physical significance is shown in the context of luminescence spectroscopy, where a novel kind of (dynamically induced or D‐) fluctuations around steady photoemission states is predicted. A photon counting/spectroscopic experiment has been performed which permits to detect D‐fluctuations and, at the same time, allows us to resolve broad spectroscopic bands by detection of the underlying finer “pure” vibronic transitions. The experimental findings clearly show the physical significance of Prigogine's Microscopic Theory.
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More From: Berichte der Bunsengesellschaft für physikalische Chemie
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