Exploring the significance of quantum cryptography in future network security protocols
1 Department of Computer Science, Western Illinois University, Macomb, Illinois, USA.
2 Tagliatela College of Engineering, University of New Haven, West Haven, USA.
Research Article
World Journal of Advanced Research and Reviews, 2024, 24(03), 817–833
Publication history:
Received on 30 October 2024; revised on 07 December 2024; accepted on 09 December 2024
Abstract:
In an era of unprecedented technological advancement, the rise of quantum computing poses both opportunities and challenges to network security. While quantum computers promise to revolutionize data processing and problem-solving, they also render traditional cryptographic protocols vulnerable, threatening the integrity of current network security systems. Quantum cryptography, particularly quantum key distribution (QKD), emerges as a groundbreaking solution, leveraging the principles of quantum mechanics to ensure unparalleled data security. Unlike classical methods, QKD guarantees secure communication by detecting eavesdropping attempts, as any observation of quantum states disrupts their integrity. This paper explores the pivotal role of quantum cryptography in shaping future network security protocols amidst a landscape of increasing cyber threats. It provides a comprehensive analysis of QKD systems, their integration into existing infrastructure, and their resilience against potential quantum-based attacks. The discussion includes real-world implementations, such as satellite-based QKD networks and fiber-optic quantum communication systems, illustrating their practical viability and scalability. Furthermore, the paper addresses current challenges, including cost, technical complexity, and interoperability with classical networks, offering insights into ongoing research aimed at overcoming these hurdles. As global reliance on digital infrastructure grows, the transition to quantum-resilient security frameworks becomes imperative. Policymakers, industry leaders, and technology developers must collaborate to advance quantum cryptographic technologies and ensure their accessibility. By securing communication channels against both classical and quantum threats, quantum cryptography is positioned to redefine the foundations of network security, paving the way for a more secure and interconnected digital future.
Keywords:
Quantum Cryptography; Quantum Key Distribution (QKD); Network Security; Quantum Computing Threats; Cybersecurity Protocols; Future Cryptographic Solutions
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Copyright © 2024 Author(s) retain the copyright of this article. This article is published under the terms of the Creative Commons Attribution Liscense 4.0