Paper Title
QUANTUM CRYPTOGRAPHY
Article Identifiers
Authors
Krish Suresh Nagaral , Karnik Chauhan , Akash srikanth , Yogendra Premanth Champa
Keywords
Quantum key distribution (QKD), lattice-based cryptography, hybrid cryptographic systems, Azure Bastion Service, quantum mechanics, superposition, quantum bits (qubits), BB84 protocol, Ekert’s E91 protocol, decoherence, cross-platform compatibility.
Abstract
In the rapidly evolving field of cyber security, integrating classical and quantum cryptographic techniques to protect sensitive information is becoming increasingly important. This project leverages the capabilities of Microsoft Azure to create a robust security framework that includes two servers: a host server and a user server. The host server uses quantum cryptography to generate encryption keys, while the user server implements the Fernet algorithm for data encryption. Quantum cryptography, specifically Quantum Key Distribution (QKD), is used on the host server to generate keys that change every nanosecond. This constant key variation makes it virtually impossible for unauthorized parties to intercept and use the key for malicious purposes. Even if an attacker succeeds in intercepting a key, the rapid change in its value renders it useless almost immediately. The Fernet algorithm, known for its simplicity and effectiveness, is used for the encryption and decryption processes. Fernet's reliance on AES encryption in conjunction with the dynamically changing, quantum-generated keys ensures a high level of security. The integration of quantum cryptography into the Fernet algorithm combines the real-time security of quantum key generation with the proven strength of AES encryption. By leveraging the advanced infrastructure of Microsoft Azure, this project demonstrates how quantum cryptography and classical encryption can be seamlessly integrated to create a highly secure communication environment. This approach not only protects against classical threats but also future-proofs the system against potential quantum attacks and ensures the confidentiality and integrity of data in an increasingly complex digital landscape.
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How To Cite (APA)
Krish Suresh Nagaral, Karnik Chauhan, Akash srikanth, & Yogendra Premanth Champa (June-2024). QUANTUM CRYPTOGRAPHY. INTERNATIONAL JOURNAL OF NOVEL RESEARCH AND DEVELOPMENT, 9(6), e233-e238. https://ijnrd.org/papers/IJNRD2406419.pdf
Issue
Volume 9 Issue 6, June-2024
Pages : e233-e238
Other Publication Details
Paper Reg. ID: IJNRD_224284
Published Paper Id: IJNRD2406419
Downloads: 000121986
Research Area: Science & Technology
Country: chennai, tamil nadu, India
Published Paper PDF: https://ijnrd.org/papers/IJNRD2406419.pdf
Published Paper URL: https://ijnrd.org/viewpaperforall?paper=IJNRD2406419
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Journal Name: INTERNATIONAL JOURNAL OF NOVEL RESEARCH AND DEVELOPMENT(IJNRD)
ISSN: 2456-4184 | IMPACT FACTOR: 8.76 Calculated By Google Scholar | ESTD YEAR: 2016
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This work is licensed under a Creative Commons Attribution 4.0 International License and The Open Definition
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