Litcius/Paper detail

Shannon entropy of resonant scattered state in the e–C<sub>60</sub> elastic collision

Shruti Sarswat, R. Aiswarya, Jobin Jose

2022Journal of Physics B Atomic Molecular and Optical Physics10 citationsDOI

Abstract

Abstract Resonance is a remarkable feature in elastic scattering and the resonant states of e–C 60 scattering are benchmarked using Shannon entropy in the present work. The resonant wavefunction, total cross-section, partial cross-sections, and scattering phase shifts are calculated for the e–C 60 scattering to review the localization properties owing to resonance. Three different model interaction potentials are used in the paper to simulate the environment of the C 60 shell; annular square well, Gaussian annular square well, and Lorentzian potential. This paper aims to establish a relationship between the Shannon entropy and resonant properties linked with e + C 60 scattering. This work introduces the Shannon entropy as an indicator of resonance in elastic scattering and it unveils the susceptibility of entropic properties to the nature of the model potential.

Topics & Concepts

PhysicsScatteringElastic scatteringEntropy (arrow of time)Scattering lengthGaussianResonance (particle physics)Wave functionAtomic physicsQuantum mechanicsFullerene Chemistry and ApplicationsCarbon Nanotubes in CompositesGraphene research and applications
Shannon entropy of resonant scattered state in the e–C<sub>60</sub> elastic collision | Litcius