Exploring Quantum Entanglement: Implications for Information Processing and Communication
DOI:
https://doi.org/10.59436/jsiane.240.2583-2093Keywords:
quantum communication, quantum information processing, Quantum entanglement, non-localityAbstract
A fundamental concept in quantum mechanics, quantum entanglement describes a one-of-a-kind occurrence in which two particles, separated by physical distance, become physically connected so that the states of one particle can instantly affect the states of the other. Quantum entanglement has both theoretical and practical consequences for communication and information processing, which are explored in this study. This article explores the latest developments in quantum cryptography, quantum teleportation, and quantum computing, focusing on how these technologies have the ability to transform communication networks, computational speed, and data security. While outlining potential future research directions, the report delves into issues including scalability and decoherence. This manuscript uses entanglement to highlight its revolutionary impact on the development of scientific and technological frontiers.
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