Abstract

This article delves into the intricate interplay between quantum information, black hole dynamics, and spacetime emergence. We explore the fundamental phenomenon of quantum entanglement, which challenges traditional distance boundary concepts. The AdS/CFT correspondence is examined, revealing a profound connection between gravitational theories and quantum fields. It also emphasizes the holographic nature of our universe. The enigmatic nature of black holes is investigated, particularly their impact on locality and information preservation. We delve into the intricacies of black hole evaporation, a process guided by entangled qubits, shedding light on information's dynamic nature. Using the concept of the thermofield double, we track the profound link between quantum information and cosmos geometry. Our exploration concludes by charting potential future research directions to unravel the complex symphony underlying our universe's fabric.