TITLE:
Quantum Entanglement Field Theory (QEFT): A Novel Framework for Modulating Entanglement Strength through Pair Production
AUTHORS:
Ammar Hafeez
KEYWORDS:
Quantum Entanglement, Entanglement Field Strength, Pair Production, Quantum Electrodynamics, Pilot Wave Theory, Entanglement Modulation, Quantum Information Theory, Quantum Key Distribution, Wavefunction Multiplier, Magnetic Field Effects, Decoherence, Num
JOURNAL NAME:
Journal of Quantum Information Science,
Vol.15 No.2,
June
30,
2025
ABSTRACT: Quantum Entanglement Field Theory (QEFT) presents a novel theoretical framework for dynamically modulating quantum entanglement strength in pair production processes, such as photon-to-electron-positron conversion. QEFT introduces the Entanglement Field Strength, a dynamic measure of nonlocal correlations influenced by photon energy, magnetic fields, spatial separation, and temporal decoherence. Numerical simulations demonstrate that entanglement strength can increase by up to 4.4 times under optimal conditions, with a 1.50% error, or decrease under adverse conditions. By integrating quantum electrodynamics, pilot wave theory, and phenomenological adjustments, QEFT provides a robust model validated through dimensional consistency. Potential applications include enhanced quantum key distribution and secure information processing protocols. An experimental setup using synchrotron sources and superconducting magnets is proposed to validate QEFT, offering insights for advancing quantum communication and computing technologies.