Quantum Entanglement and Its Applications in Next-Generation Computing

ABSTRACT

Quantum entanglement, one of the most profound phenomena in quantum mechanics, has emerged as a cornerstone for the development of next-generation computing technologies. This research explores the theoretical foundations and experimental advancements in quantum entanglement, focusing on its application in quantum computing, secure communications, and fundamental physics. The study delves into the role of entangled states in enabling quantum algorithms, such as Shor’s and Grover’s algorithms, which demonstrate computational supremacy over classical counterparts. It also examines the potential of quantum entanglement in creating unhackable communication networks through quantum key distribution protocols. Using recent experimental breakthroughs, this work investigates the practical challenges of maintaining entanglement over long distances and proposes strategies to overcome decoherence. The findings aim to bridge the gap between theoretical predictions and real-world applications, contributing to the rapidly evolving field of quantum technology. This research is intended for physicists, computer scientists, and engineers interested in leveraging the power of quantum entanglement to revolutionize technology and deepen our understanding of the quantum world.

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