Beyond Binary: The Capabilities of Classical and Quantum Computing for Securing Data Transmission

Prasad Paruchuri, B.V.N.; Veerapaneni, Madhu Latha; Rames, G.; Awaar, Vinay Kumar; Chauhan, Abhilasha

doi:10.1051/e3sconf/202343001073

Cited by 1 publication

(1 citation statement)

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“…This includes lattice-based cryptography, hash-based cryptography, and other methods that rely on mathematical problems considered hard for quantum computers to solve. The standardization process, led by organizations like the National Institute of Standards and Technology (NIST), is critical in establishing reliable and secure post-quantum cryptographic standards (Paruchuri et al, 2023). The transition to quantum-resistant cryptography presents several challenges.…”

Section: Quantum Computing and Its Threat To Classical Encryptionmentioning

confidence: 99%

Quantum Cryptography and U.S. Digital Security: A Comprehensive Review: Investigating the Potential of Quantum Technologies in Creating Unbreakable Encryption and Their Future in National Security

Sedat Sonko,

Kenneth Ifeanyi Ibekwe,

Valentine Ikenna Ilojianya

et al. 2024

Comput. sci. IT res. j.

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This study provides a comprehensive review of quantum cryptography and its implications for U.S. national security in the face of emerging quantum technologies. The primary objective is to investigate the potential of quantum cryptographic methods in creating unbreakable encryption and their future role in enhancing digital security. Employing a systematic literature review and content analysis, the study draws on recent peer-reviewed articles, institutional reports, and academic journals from 2013 to 2023. The methodology focuses on evaluating the evolution, current state, and challenges of quantum cryptography, along with its integration into existing security frameworks. Key findings reveal that Quantum Key Distribution (QKD) and post-quantum cryptography (PQC) offer promising solutions against the threats posed by quantum computing to classical encryption methods. However, the practical implementation of these technologies faces significant challenges, including technological limitations and the need for global standardization. The study underscores the urgency for U.S. national security policy to prioritize the development and integration of quantum-resistant cryptographic technologies and to foster international collaboration for standardization. Finally, the study highlights the transformative potential of quantum cryptography in digital security, emphasizing the need for continued research and collaboration to overcome implementation challenges. Future research directions include the development of efficient quantum cryptographic protocols and ethical considerations surrounding the deployment of quantum technologies. This study contributes to the discourse on securing national interests in the face of advancing quantum computing capabilities. Keywords: Quantum Cryptography, Digital Security, Post-Quantum Cryptography, Quantum Key Distribution.

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Section: Quantum Computing and Its Threat To Classical Encryptionmentioning

confidence: 99%