Subatomic Interaction Potentials (SIP)

The standard perspective on protons and electrons is that protons bear a positive charge while electrons carry a negative charge and opposite charges attract while the same charges repel each other. A new perspective on looking into subatomic particles was presented [1-3]. Protons, electrons, and neutrons are treated as conventional particles in inside an atom, exhibiting attraction and repulsion between them, akin to the way atoms attract and repel each other in atomic simulations [1]. This new approach leads to development of pseudo potentials [1] for subatomic particles to model the subatomic particle interactions in an individual atom [1-3]. For more information on this work, visit “Publications” page. 

References:
1. Venkatesan, S. Subatomic Particle Simulations using Monte Carlo and Molecular Dynamics Algorithms to Simulate Stable Atom and Model Electronic Structure. Innovation Journal of Applied Science 2(2) (2025): 20. https://doi.org/10.70844/ijas.2025.1.20
2. Venkatesan, S. Subatomic Particle Simulations using Monte Carlo and Molecular dynamics Algorithms to Simulate Stable Atom and Model Electronic Structures. Preprints 2023, 2023111107. https://doi.org/10.20944/preprints202311.1107.v3
3. Subatomic Particle Simulations using Monte Carlo and Molecular Dynamics Algorithms to Simulate Atom. Eliva Press, 2025, ISBN: 978-99993-2-529-5. https://www.elivapress.com/en/book/book-7213394112/

 

Video Representation of Pseudo Potentials

 

New Potentials (alternative to Coulomb Potentials) for Protons, Electrons, and Neutrons to Simulate a Stable Atom, as shown in the video.

Big question of "why electrons don't fall into nucleus" is answered here in classical physics.

Instead of Coulomb Potentials, electrons and protons were treated as conventional particles in an atom, exhibiting attraction and repulsion between them, giving a stable atom simulation.

New potentials were developed for protons and electrons to simulate an full atom.