Quantum entanglement lets particles stay connected, even when separated by vast distances. This strange link is crucial to building quantum computers and securing quantum communications. But it’s also ...
Comparison of two noise spectroscopy methods of qubit environments. The Sun group's FTNS significantly outperforms current DDNS methods. Credit: Steven Burrows/Sun group Comparison of two noise ...
Achieves superior decoding accuracy and dramatically improved efficiency compared to leading classical algorithmsRa’anana, Israel, Jan. 15, 2026 ...
Morning Overview on MSN
Scientists turn crystal defects into quantum superhighways for scalable qubits
Quantum engineers have spent years trying to tame the fragility of qubits, only to be thwarted by the tiniest imperfections ...
The Brighterside of News on MSN
Silicon vibrations add a new twist to dark matter research and quantum computing
At Texas A&M University, experimental particle physicist Dr. Rupak Mahapatra spends his days chasing some of the faintest ...
Amplifier’s ability to operate at frequencies greater than 20 gigahertz provides path forward for more scalable quantum ...
Quantum entanglement — a connection between particles that produces correlations beyond what is classically possible — will be the backbone of future quantum technologies, including secure ...
Quantum noise stream ciphers utilise the inherent randomness of quantum noise in optical systems to secure data transmission at the physical layer. By embedding cryptographic keys into fluctuations ...
Tech Xplore on MSN
What does cybersecurity look like in the quantum age?
Quantum computers promise unprecedented computing speed and power that will advance both business and science. These same ...
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