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- Quantum cryptography - Wikipedia
The advantage of quantum cryptography lies in the fact that it allows the completion of various cryptographic tasks that are proven or conjectured to be impossible using only classical (i e non-quantum) communication
- What Is Quantum Cryptography? | NIST
Quantum cryptography is a set of methods that uses the quirky — but well-understood — rules of quantum mechanics to securely encrypt, transmit and decode information
- What is quantum cryptography? - IBM
What is quantum cryptography? Quantum cryptography (also known as quantum encryption) refers to various cybersecurity methods for encrypting and transmitting secure data based on the naturally occurring and immutable laws of quantum mechanics
- What Is Quantum Encryption and Why It Matters
In a world where quantum computers could soon render classical encryption obsolete, quantum encryption stands as the ultimate safeguard—a system whose security is not based on human assumptions but on the fundamental laws of nature
- What Is Quantum Security? Preparing for the Post-Quantum Era
A quantum secure network uses quantum-resistant cryptography or quantum key distribution to protect data in transit The goal is to ensure communications remain confidential and authenticated even if quantum computers eventually emerge that could break today’s encryption
- Quantum Cryptography and Quantum Encryption Explained - Caltech Science . . .
Post-quantum cryptography, also known as quantum-proof cryptography, aims to create encryption methods that cannot be broken by algorithms, or calculations, that run on future quantum computers
- Quantum-safe security: Progress towards next-generation cryptography . . .
In the future scalable quantum computing could break public-key cryptography methods currently in use and undermine digital signatures, resulting in compromised authentication systems and identity verification While scalable quantum computing is not available today, the time to prepare is now
- Post-Quantum Cryptography (PQC) Explained: A Roadmap to Quantum-Safe . . .
Learn how Post-Quantum Cryptography protects data from future quantum threats, explore NIST standards, real-world examples, and a practical roadmap to build quantum-safe security
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