Paper Contents
Abstract
Nuclear physics and electromagnetism have long been studied as distinct yet interconnected fields. While classical electrodynamics, as formulated by Maxwells equations, governs the behavior of electric and magnetic fields, nuclear interactions are primarily explained by quantum chromodynamics (QCD) and the electroweak theory. However, the exact interplay between high-frequency electromagnetic fields and nuclear forces remains an underexplored domain. The Inducto-Nuclear Effect (INE) proposed in this research bridges this gap, suggesting that high-frequency alternating magnetic fields can directly alter nuclear energy levels, leading to nuclear transitions without requiring external radiation or particle collisions.
Copyright
Copyright © 2025 Vishwanath Barve. This is an open access article distributed under the Creative Commons Attribution License.
