'Planck–Chai Hyperexponential Correction Model to the General Theory of Relativity for Quantum Fields: An extension of Einstein's equations to quantum gravity' by Eng. Julio Chai - SSRN

 

     The present literary work titled 'PLANCK–CHAI HYPEREXPONENTIAL CORRECTION MODEL TO THE GENERAL THEORY OF RELATIVITY FOR QUANTUM FIELDS: An extension of Einstein's equations to quantum gravity' written by Eng. Julio Chai, presents a conceptual and mathematical exploration aimed at extending Einstein’s General Theory of Relativity into the domain of quantum gravity through the proposed Planck–Chai hyperexponential correction model. It begins by explaining that the universe can be understood as a system governed by mathematical laws, where Einstein’s field equations describe gravity as the curvature of spacetime caused by matter and energy. This geometric interpretation successfully explains large-scale phenomena such as planetary motion, black holes, and cosmic expansion.

     However, the work emphasizes a fundamental limitation: general relativity does not reconcile easily with quantum mechanics, which governs the microscopic world through discrete energy units and probabilistic behavior. At extremely small scales, particularly near the Planck length, spacetime may no longer behave as a smooth continuum but instead exhibit a granular or fluctuating structure. This creates theoretical challenges, especially in extreme conditions such as singularities inside black holes, where classical equations break down.

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