Exploring: | Quantum Field Theory and Emergent Space-Time Geometry
Abstract:
This paper explores the intriguing interplay between Quantum Field Theory (QFT) and the concept of emergent space-time geometry. We delve into the theoretical foundations that suggest space-time itself may be a derived concept from more fundamental quantum mechanical interactions. Through the lens of QFT, we investigate how space-time geometry can arise from the entanglement of quantum fields, the role of tensor networks in modeling space-time, and the implications of such a framework for our understanding of gravity and the fabric of the cosmos.
Abstract:Moreover…
In the quest to unify the principles of quantum mechanics with the cosmological scale of general relativity, this paper examines the compelling intersection of Quantum Field Theory (QFT) with emergent space-time geometry. We probe the core theoretical propositions that cast space-time not as a fixed backdrop for physical phenomena but as a consequence of deeper, more fundamental quantum processes. Our exploration is framed by QFT, a robust mathematical architecture that successfully merges the quantum world with the relativistic universe, to elucidate the mechanisms by which the geometry of space-time might manifest from the quantum entanglement of fields. Central to this investigation is the application of…