Configurational entropy and shape complexity of strange vector kaons in AdS/QCD

TL;DR

This paper combines AdS/QCD and experimental data to analyze the mass spectrum of strange vector kaons, using configurational entropy and complexity to predict higher resonances.

Contribution

It introduces a hybrid method using AdS/QCD with a deformed dilaton and configurational measures to study strange vector kaons, extending predictions to higher resonances.

Findings

Computed mass spectrum of strange vector kaons with higher radial quantum numbers.

Used configurational entropy and complexity to correlate with experimental data.

Provided predictions for next-generation strange vector kaon resonances.

Abstract

The mass spectrum of strange vector kaons resonances is scrutinized, using AdS/QCD with a deformed dilaton that arises from the constituent quark masses. Both the differential configurational entropy and the differential configurational complexity are computed and used to achieve the mass spectrum of strange vector kaons resonances with higher radial quantum numbers. This approach amalgamates AdS/QCD and the experimental mass spectrum of already detected strange vector kaons in the Particle Data Group, providing a hybrid technique to study the next generation of strange vector kaons resonances.