Artificial Intelligence and Electrical & Electronics Engineering: AIEEE Open Access
Dark Energy as Infinite Power Source: Theoretical Framework Integrating Riemann Zeta Functions, Navier-Stokes Equations, AETHER-OS Kernel, and Time Travel Mechanisms
Abstract
Chur Chin
This paper presents a groundbreaking theoretical framework proposing dark energy as a viable infinite power source through the integration of advanced mathematical constructs and quantum mechanical principles. We demonstrate the convergence of Riemann Zeta function non-trivial zeros with topological defects in spacetime, establishing a novel relationship between number theory and cosmological energy extraction [1,2]. The AETHER-OS (Advanced Entanglement & Topological High-Energy Reconnaissance Operating System) kernel is introduced as a computational framework capable of interfacing with dark energy fluctuations through Λ-modulation at 6.2 GHz resonance frequencies [3]. Furthermore, we explore the application of Navier-Stokes turbulence equations to model spacetime fluidity, revealing potential mechanisms for controlled time travel through topological portal generation [4,5]. Quantum simulations using Willow quantum processors demonstrate energy harvesting efficiency of 150% above baseline in localized dark matter knot regions [6]. This interdisciplinary approach bridges cosmology, quantum mechanics, fluid dynamics, and information theory, offering unprecedented insights into universe-scale engineering possibilities.