Tackling heat transfer, diamond layers help build 3D circuits with lower power consumption, faster signaling, and increased performance.
New computer solves complex problems by physically mirroring the systems it’s trying to solve
An Ising machine built on lattice defects solves problems faster than conventional computers without the drawbacks of quantum systems.
Riccardo Bassoli: How quantum computing will redefine wireless communication
Future 6G wireless networks will rely on quantum computers, but developing the technology and making it sustainable is complex.
What would it take to make quantum memristors a reality?
Machine learning unveils the ideal structure of a quantum memristor, which could one day surpass current computing systems.
Are quantum communications truly unhackable? Study suggests otherwise
In theory, quantum communications should be impossible to hack, but study shows this may not be true in practice.
A brain–computer interface could slow cognitive decline
This new brain–computer interface detects weakened brain signals and boosts them to healthy levels, potentially reversing cognitive aging in the brain.
Quantum proofing passwords and artwork with DNA encryption
Chaotic pools of DNA could be the future of encryption, proving authenticity of artwork or securing passwords against quantum computers.
A quantum take on oblivious transfer unlocks ultra-secure communication
In addition to ensuring the secure transfer of quantum communications, researchers have come up with a way to safely store and process data.
Superconducting qubit promises breakthrough in quantum computing
A radical superconducting qubit design promises to extend their runtime by addressing decoherence challenges in quantum computing.
Breakthrough in quantum computing with stable room temperature qubits
Scientists achieve groundbreaking room-temperature quantum coherence for 100 nanoseconds, propelling molecular qubits closer to practical quantum computing.