Tag: quantum communication
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Exeter-Queensland Partnership Advances Quantum Link Verification to Secure Global Communications
New international collaboration targets the security of global communications A pioneering international research partnership has been launched between the University of Exeter in the United Kingdom and the University of Queensland in Australia to tackle one of the most pressing challenges in modern communications: ensuring the security of information traveling through fibre-optic networks. The collaboration…
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Exeter-Queensland Partnership Striving To Improve Security Of Global Communication
Global collaboration targets a security breakthrough in communications A new international research partnership between the University of Exeter in the United Kingdom and the University of Queensland in Australia is aiming to strengthen the security of global communications. The collaboration focuses on a breakthrough technology known as Quantum Link Verification (QLV), developed to safeguard data…
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Molecular Coating Cleaned Up Noisy Quantum Light for Quantum Tech
A Breakthrough for Stable Quantum Light Quantum technologies hinge on one unerring rule: every photon must be identical, produced one at a time, with the same energy. Tiny deviations in photon number or energy can derail quantum computers, secure communications, and ultra-precise sensors. Northwestern University engineers have unveiled a practical solution: coating an atomically thin…
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Molecular Coating Cleans Up Noisy Quantum Light
Overview: A simple coating cleans up noisy quantum light Quantum technologies demand perfection: one photon at a time, every time, with identical energy. Tiny deviations in the number or energy of photons can derail devices, threatening the performance of future quantum computers and a potential quantum internet. Northwestern University engineers have devised a novel strategy…
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Molecular Coating Tames Noisy Quantum Light Emission
Overview: A cleaner, more reliable quantum light source Quantum technologies demand perfection: one photon at a time with identical energy. Even tiny variations in photon number or energy can derail devices and threaten the performance of quantum computers that may form a quantum internet. In response, Northwestern University engineers developed a simple, scalable solution that…