All Quantum Networks Posts
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Quantum Computing
Quantum Hacking: Cybersecurity of Quantum Systems
While these machines are not yet widespread, it is never too early to consider their cybersecurity. As quantum computing moves into cloud platforms and multi-user environments, attackers will undoubtedly seek ways to exploit them.
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Quantum Networks
Quantum Repeaters: The Key to Long-Distance Quantum Comms
Quantum repeaters are specialized devices in quantum communication networks designed to extend the distance over which quantum information (qubits) can be sent without being lost or corrupted. They tackle a fundamental challenge: photons carrying qubits tend to get absorbed or scatter as they travel through fiber or air, and quantum states can decohere (lose their quantum properties) due to environmental noise.
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Quantum Networks
What is Entanglement-as-a-Service (EaaS)?
Entanglement-as-a-Service is transitioning from a fascinating concept to a nascent reality. Its technical foundations are solidly rooted in quantum physics, its current development is accelerating through global research efforts, and its promise has caught the attention of the telecommunications industry and beyond. While challenges remain in scaling and integration, the trajectory is clear: EaaS and quantum networks will likely be as transformative in the 21st…
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Quantum Computing
Quantum Memories in Quantum Networking and Computing
Quantum memories are devices capable of storing quantum states (qubits) in a stable form without collapsing their quantum properties. In essence, a quantum memory is the quantum-mechanical analog of classical computer memory or RAM.
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Quantum Networks
Quantum Networks 101: An Intro for Cyber Professionals
Quantum networks are on the cusp of transitioning from theory to practice, following a trajectory not unlike the early development of the classical internet. They hold the promise of fundamentally secure communications and new quantum information capabilities. While challenges remain, the continuous advances in hardware and protocols, bolstered by significant global investments, make it likely that many of us will experience the quantum network revolution…
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Quantum Networks
Entanglement Distribution Techniques in Quantum Networks
Quantum entanglement is a unique resource that enables new forms of communication and computation impossible with classical means. Distributing entanglement between distant locations is essential for applications such as quantum key distribution (QKD), quantum teleportation, and connecting quantum computers for distributed quantum computing.
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Quantum Networks
Quantum Teleportation
Quantum teleportation is a process by which the state of a quantum system (a qubit) can be transmitted from one location to another without physically sending the particle itself. Quantum teleportation has become a foundational method in quantum communication, envisioned as a building block for quantum networks and even quantum computing. In essence, it provides a way to transfer quantum information securely and instantaneously (in…
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Post-Quantum
Next-Generation QKD Protocols: A Cybersecurity Perspective
Traditional QKD implementations have demonstrated provably secure key exchange, but they come with practical limitations. To address these limitations, researchers have developed next-generation QKD protocols. These advanced protocols improve security by reducing trust assumptions and mitigating device vulnerabilities, and they enhance performance (key rate, distance) through novel techniques. The article includes a high-level overview of the most notable next-gen QKD protocols.
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