The Systematics of Fundamental Particles and Unstable Nuclear Systems   Using the Concept of Continuity and Discreteness

Raja Ramanna; Anju Sharma (National Institute of Advanced Studies,; Bangalore)

arXiv:nucl-th/9706063·nucl-th·September 25, 2009·6 cites

The Systematics of Fundamental Particles and Unstable Nuclear Systems Using the Concept of Continuity and Discreteness

Raja Ramanna, Anju Sharma (National Institute of Advanced Studies,, Bangalore)

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TL;DR

This paper introduces a novel method using Cantor's theory of Cardinality to analyze experimental data on unstable nuclear systems, providing insights into fundamental particles, decay processes, and nuclear energy levels.

Contribution

It presents a new approach based on the theory of discreteness and continuity, deriving a formula for binding energies of unstable nuclei.

Findings

01

Derived a formula for binding energies of unstable nuclei

02

Analyzed experimental data on nuclear decay processes

03

Provided a systematic framework for nuclear energy levels

Abstract

In this review, a new method is proposed based on Cantor's theory of Cardinality to analyze the experimental data on unstable nuclear systems which includes fundamental particles and their flavours, $β$ -decay including spin and parity, $α$ -decay and the systematics of the energy levels of light nuclei. The method also derives a formula for the Binding Energies of unstable nuclei. All this is based on the theory of discreteness and continuity.

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Taxonomy

TopicsComputational Physics and Python Applications · Statistical Mechanics and Entropy · Quantum Mechanics and Applications