What question did this study set out to answer?

The aim is to redefine quantum entanglement by viewing it as a relational structure within a dynamic frequency environment.

January 26, 2026Open Access

ELS Entangled Light Structure) Framework: A Conceptual Approach to Quantum Entanglement from a Frequency Perspective

Key Points

The aim is to redefine quantum entanglement by viewing it as a relational structure within a dynamic frequency environment.
Analyzed traditional approaches to entanglement preservation
Proposed a framework that conceptualizes entanglement as a relational structure
Investigated implications of environmental factors on entanglement
Identified limitations of existing methods for preserving entangled states in realistic conditions
Proposed a shift from localized control to a global interpretation of the frequency domain
Demonstrated that entanglement can emerge from environmental dynamics rather than just isolation

Abstract

Conventional studies of quantum entanglement have primarily focused on maintaining entangled states through extreme environmental isolation, such as cryogenic temperatures, electromagnetic shielding, and local noise suppression. While successful in controlled laboratory conditions, these approaches face fundamental limitations when extended to realistic or room-temperature environments. In this work, entanglement is not treated as a fragile state that must be rigidly preserved,but rather as a relational structure that emerges within a dynamically constrained temporal environment. This motivates a shift in perspective: from localized control of physical variables to a global interpretation of the environment as a structured frequency domain. newbalancems@naver.com

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