To carry out quantum computations, quantum bits (qubits) must be cooled to temperatures in the millikelvin range (close to -273…
Browsing: Quantum Comp
When arranged in just the right ways, two-dimensional materials can display unusual and valuable quantum effects such as superconductivity and…
The inaugural PITCH.nano competition, hosted by MIT.nano’s hard technology accelerator START.nano, provided a platform for early-stage startups to present their…
Physicists at the University of Bath have developed a new generation of specialty optical fibers to address the upcoming challenges…
As part of the Co-design Center for Quantum Advantage (C2QA), a DOE National Quantum Information Science Research Center led by…
Light bulbs come in all sorts of forms—globes, spirals, candle-like tips, and long tubes—but few are truly thin. Now, scientists…
Picture a future where factories can create materials and chemical compounds more quickly, at lower cost, and with fewer production…
A pivotal obstacle in the path to realizing quantum computers is the imperative development of ‘quantum error correction’ technology. This…
Nature follows countless rhythms: the changing of the seasons comes from Earth’s orbit around the Sun, and the steady tick…
People tend to think of quantum materials — whose properties arise from quantum mechanical effects — as exotic curiosities. But…