What question did this study set out to answer?

The aim is to present the Energy-Emission Force (EEF) as a state-dependent interaction resulting from particle energy transitions.

March 28, 2026Open Access

Energy-Emission Force: A State-Dependent Localized Interaction Across Atomic and Nuclear Scales

Key Points

The aim is to present the Energy-Emission Force (EEF) as a state-dependent interaction resulting from particle energy transitions.
Introduced the concept of Energy-Emission Force (EEF) as a localized interaction.
Developed a theoretical framework describing energy-driven interactions across atomic to nuclear scales.
Discussed distance dependence, temporal decay, and particle mass effects in the context of EEF.
Proposed EEF as a novel interaction that complements existing fundamental forces.
Identified potential observation scenarios in atomic, nuclear, and mesoscopic systems.
Highlighted the significance of EEF-induced momentum transfer in various experimental settings.

Abstract

This work introduces the concept of the Energy-Emission Force (EEF), a novel type of localized interaction arising from the transition of particles between excited and ground states. Unlike the four fundamental forces, the EEF is inherently state-dependent and directly driven by energy emission. The theoretical framework presented here unifies the description of energy-emission-driven interactions across multiple scales, from atomic electronic excitations to nuclear reactions, incorporating distance dependence, temporal decay, and particle mass effects. Potential experimental realizations are discussed, highlighting atomic, nuclear, and mesoscopic systems where EEF-induced momentum transfer may be observed. This framework provides a new perspective on energy-mediated forces and offers a basis for further theoretical and experimental exploration.

Energy-Emission Force: A State-Dependent Localized Interaction Across Atomic and Nuclear Scales

Key Points

Abstract

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