When we talk with researchers in the quantum community, we see an almost even split on the question of whether a NISQ level machine will be usable for commercial or scientific advantage or whether we […]
Thomas Edison famously tried hundreds of materials and failed thousands of times before discovering that carbonized cotton thread burned long and bright in an incandescent light bulb. Experiments are often time-consuming (Edison’s team spent 14 […]
Sailors have spun yarns for centuries about gigantic rogue waves that could suddenly come out of nowhere to capsize the ships of unwary mariners. Scientists didn’t believe them because the stories seemed at odds with […]
Insider Brief IBM Quantum and UC Berkeley published findings that suggest that noisy quantum computers can outperform supercomputers at certain tasks. The scientists are calling this an advance toward quantum utility. Image: The interior view […]
Despite steady improvements in quantum computers, they’re still noisy and error-prone, which leads to questionable or wrong answers. Scientists predict that they won’t truly outcompete today’s “classical” supercomputers for at least five or ten years, […]
Description The Kestner Group in the Department of Physics at UMBC invites applications for a Postdoctoral Research Associate to carry out theoretical investigations of silicon spin qubits under the mentorship of Dr. Jason Kestner. The […]
Insider Brief Beyond Limits and IQM Quantum Computers signed an agreement to drive the advancement of quantum AI technology within the Asia Pacific (APAC) region. The agreement will allow the companies a chance to explore […]
A team led by Prof. Guo Guangcan, with the collaborative efforts from Wigner Research Centre for Physics, revealed a new approach to discovering a new spin defect with an excellent probability of 85% and achieved […]
A team of physicists, including University of Massachusetts assistant professor Tigran Sedrakyan, recently announced in the journal Nature that they have discovered a new phase of matter. Called the “chiral Bose-liquid state,” the discovery opens […]
When two heavy ions collide at very high relativistic energies, they penetrate one another, during which they become excited and are slowed down. This “stopping” process can be generated experimentally, as demonstrated on the Large […]
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