Quantum Encryption – Securing the Future
Vijaya Saradhi Nanduri1,
SOLUTION ARCHITECT, DXC Technology,
Wing A, 25th floor, Sattva Knowledge Park,
Plot No # 16, Sy Number: 83/1, Hi-Tec City, Panmaktha village,
Serilingampally Mandal, Raidurg, Hyderabad, Telangana 500081, India
1vnanduri@dxc.com
Abstract— Quantum encryption represents a significant advancement over traditional encryption methods such as RSA and ECC. Unlike conventional algorithms, which can be compromised by quantum computing techniques like Shor’s and Grover’s algorithms, quantum encryption offers a fundamentally stronger security model. At the heart of this technology lies Quantum Key Distribution (QKD), which leverages the laws of physics to ensure secure communication and enables early detection of any eavesdropping attempts. This document outlines the core principles of QKD, including superposition, entanglement, and the no-cloning theorem, along with widely adopted protocols such as BB84, E91, and CV-QKD. It also discusses implementation architectures, including fiber-based and satellite-based QKD systems.
To strengthen security further, hybrid models that combine QKD with Post-Quantum Cryptography (PQC) are emerging, offering layered protection for critical sectors. The document also addresses practical challenges such as hardware vulnerabilities, side-channel attacks, and scalability issues, along with recommended mitigation strategies. Global standards from organizations like ETSI and ITU are covering the way for interoperability and secure deployments worldwide. Operating systems such as Microsoft Windows, Red Hat Linux, and cryptographic libraries like OpenSSL are now incorporating quantum-safe cryptography, demonstrating readiness for real-world applications.
For researchers, enterprises, and policymakers, this evolution opens exciting opportunities in innovation, migration planning, and future-proof security strategies. Quantum encryption is not just a technological leap, it is a necessity for safeguarding our digital future. [1] [2] [3] [7] [10][11][12]13][14] [21].
Keywords—Quantum cryptography, QKD, BB84, E91, CV‑QKD, multi‑core fiber, PQC, ML‑KEM, ML‑DSA, ITU‑T Y.3800, ETSI GS QKD 014.
