Recent research offers a new spin on using nanoscale semiconductor structures to build faster computers and electronics.
"4D transistor" gives glimpse at future of computing
Purdue and Harvard researchers create stackable indium-gallium-arsenide transistors.
Warm atoms for a long memory: Implementing quantum computing
One of the exciting potential applications of electromagnetically induced transparency and slow and stored light is for practical realization of quantum memory, and, ultimately, quantum computing. Recent advances using ensembles of warm atoms in vapor cells have been made.
Diamond Membranes for Quantum Computing
By using microwave CVD, high quality, single crystal diamond membranes have been epitaxially grown. The resulting material exhibits bright luminescence and good electron spin coherences times, suitable for application in quantum computing.
At the Edge of Chaos: A New Type of Computing
A computing network that exhibits emergent behavior similar to that in biological brains is hypothesized by Adam Z. Stieg of the California NanoSystems Institute
Newly discovered quantum object could usher in new era of technology
Once relegated to theory, a newly discovered quantum object could be used to create new devices that will outpace modern electronics.
Quantum entanglement allows scientists to track time more accurately
Scientists have built atomic clocks with unprecedented levels of precision by harnessing quantum entanglement.
3D-printed ceramics bring quantum tech one step closer to the reality
3D-printed ceramics enable smaller, more stable quantum devices for applications in quantum computing, sensing, and communications.
Diamond helps build efficient 3D computer chips
Tackling heat transfer, diamond layers help build 3D circuits with lower power consumption, faster signaling, and increased performance.
The next big thing in tech could come from these tiny light absorbers
When the light absorbers are made very small, almost all the device performance metrics improve—but doing this is easier said than done.