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The quantum and classical Fano parameter <i>q</i>

Masatomi Iizawa, Satoshi Kosugi, Fumihiro Koike, Y. Azuma

2021Physica Scripta21 citationsDOIOpen Access PDF

Abstract

Abstract The Fano resonance has been a familiar and important feature in atomic and molecular physics for more than half a century. Typically, the combination of a discrete state with one or more continua results in an asymmetric peak in the ionization spectrum. The peak-shape, called the Fano profile, can be expressed by a simple formula derived by Fano in 1935. However, the interpretation of its characteristic parameter q , which represents the asymmetry of the peak in the formula, is not necessarily intuitively transparent. The Fano resonance is not necessarily a quantum effect, but it is a manifestation of a certain physical mechanism in various systems, both quantum and classical. Through the derivation of q from the known classical pictures with the classical coupled oscillator, we interpret the q value with a geometrical view. And further, we introduce a complex valued q parameter for the description of the resonance with a damped oscillator.

Topics & Concepts

Fano planePhysicsFano resonanceAsymmetryQuantum mechanicsInterpretation (philosophy)QuantumResonance (particle physics)Theoretical physicsMathematicsPure mathematicsComputer sciencePlasmonProgramming languageAdvanced Chemical Physics StudiesSpectroscopy and Quantum Chemical StudiesQuantum, superfluid, helium dynamics
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