A new kind of “wire” for moving excitons, developed at the University of Michigan, could help enable a new class…
Browsing: Quantum Comp
One of the most well-established and disruptive uses for a future quantum computer is the ability to crack encryption. A…
The qualities of crystalline materials are determined by their structures, which enable critical technologies. Thus, crystal structure prediction can be…
Scientists at Oak Ridge National Laboratory used their expertise in quantum biology, artificial intelligence and bioengineering to improve how CRISPR…
In June, an IBM computing executive claimed quantum computers were entering the “utility” phase, in which high-tech experimental devices become…
Solid-state spin defects, especially nuclear spins with potentially achievable long coherence times, are compelling candidates for quantum memories and sensors.…
Quantum materials hold the key to a future of lightning-speed, energy-efficient information systems. The problem with tapping their transformative potential…
The brain is an exceptionally powerful computing machine. Scientists have long tried to recreate its inner workings in mechanical minds.…
The “qubits” that make up quantum computers can assume any superposition of the computational base states. This allows quantum computers…
True to form, a “strange metal” quantum material proved strangely quiet in recent quantum noise experiments at Rice University. Published…