What question did this study set out to answer?

This work aims to propose a theoretical framework for the Energy-Emission Force (EEF) and its implications in quantum mechanics.

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March 29, 2026Open Access

A Proposal for the Energy-Emission Force A Transition-Triggered Vector Interaction

Key Points

This work aims to propose a theoretical framework for the Energy-Emission Force (EEF) and its implications in quantum mechanics.
Developed a theoretical framework for EEF
Utilized Lagrangian formulation to describe interactions
Analyzed quantum state transitions and emission processes
Predicted directional asymmetries in emission processes during quantum transitions
Demonstrated forward–backward asymmetry under symmetric conditions
Outlined experimental signatures for future verification of EEF

Abstract

This work presents a theoretical proposal for the Energy-Emission Force (EEF), a transition-triggered vector interaction that becomes active exclusively during quantum state transitions associated with energy release. Unlike conventional interactions, EEF couples directly to transition currents between distinct quantum states, potentially generating directional asymmetries in emission processes. The framework provides a consistent approach for studying transition-dependent interactions and predicts measurable effects, such as forward–backward asymmetry, under symmetric conditions. This proposal outlines the theoretical foundation, Lagrangian formulation, and expected experimental signatures of EEF, offering a basis for future verification and exploration in quantum systems.

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