Scientists pioneer mixed-valence molecules in quantum-dot automata for faster, room-temperature operation, overcoming transistor limits.
Clickable buttons that rise up anywhere on a touchscreen
PopTouch blends transparency and touch, bringing traditional tactile buttons to a world of flat screens and smooth surfaces.
A new mathematical description for entangled systems
The math of multi-particle entangled systems is fiendishly complex, but researchers have made a step forward.
Breaking the quantum limit in gravitational wave detectors
Physicists working on LIGO have surpassed the quantum limit to enhance gravitational wave detectors and revolutionize astrophysical observations.
Revolutionizing quantum technologies with photons made from quantum dots
Harnessing quantum dots to produce low-energy single photons for applications in secure communications and quantum computing.
Harnessing entanglement and curved spacetime to make quantum radar a reality
Scientists investigate the synergy of entanglement and curved spacetime in advancing quantum radar technology for precise distance measurement.
Simulating a quantum computer with electronic circuits
What if quantum computing could be simulated using hardware that isn’t so finicky?
Quantum entanglement visualized for the first time ever
The mysterious phenomenon that Einstein once described as “spooky action at a distance” was seen as a wavefunction between two entangled photons.
Topological insulators could herald a new future for electronics
Promising candidates for efficient future electronics, researchers are exploring these exotic materials for better computer memory, hard drives, even quantum computers.
Using machine learning to tame plasma in fusion reactors
For fusion reactions to become practical, parameters such as plasma density and shape must be monitored in real time and impending disruptions responded to instantly.