Researchers from the California NanoSystems Institute at UCLA and their colleagues have received a one-year, $1 million grant as part of a new National Science Foundation program aimed at accelerating the development and commercialization of quantum technologies for the benefit of society.

A study by more than a dozen scientists at the Department of Energy’s Oak Ridge National Laboratory examines potential strategies to integrate quantum computing with the world’s most powerful supercomputing systems in the pursuit of science.

A team led by Stevens physics professor Igor Pikovski has just outlined how to detect single gravitons, thought to be the quantum building blocks of gravity — and making that experiment real should be possible with quantum technology, they suggest, in the near future.

Bluefors today announced the immediate availability of a XLDHe High Power System – a cryogen-free, helium-4 powered measurement system that delivers extremely high cooling power for experiments in the 1 K temperature range. The XLDHehp is ideal for demanding applications such as spin qubit quantum computing devices, or single photon detectors for photonic quantum computers.

In their paper, the researchers outline a new strategy for generating spin-squeezed entanglement. They intuited, and together with collaborators in France quickly confirmed via experiment that the ingredients for spin squeezing are present in a ubiquitous type of magnetism found often in nature — ferromagnetism, which is also the force that makes refrigerator magnets stick. They posit that all-to-all interactions are not necessary to achieve spin squeezing, but rather, so long as the spins are connected well enough to sync into a magnetic state, they should also be able to dynamically generate spin squeezing.

Mesa Quantum announces it has been selected by SpaceWERX for a Direct-to Phase II Small Business Innovation Research (SBIR) grant in the amount of $1.9M focused on miniaturized atomic clocks for alternative Positioning, Navigation, & Timing (PNT) to address the most pressing challenges in the Department of the Air Force (DAF).

Together with their collaborators, Busnaina and Dr. Christopher Wilson, a faculty member at IQC and a professor in the Department of Electrical and Computer Engineering, have realized quantum analog simulation of a new type of system. This version of their simulation, known as the bosonic Kitaev model, is made using a class of subatomic particles called bosons which includes photons (particles of light) and the Higgs Boson, which are linked together in a chain.

Mesa Quantum announces it has been selected by SpaceWERX for a Direct-to Phase II Small Business Innovation Research (SBIR) grant in the amount of $1.9M focused on miniaturized atomic clocks for alternative Positioning, Navigation, & Timing (PNT) to address the most pressing challenges in the Department of the Air Force (DAF).

BTQ Technologies Corp. , a global quantum technology company focused on securing mission-critical networks, is pleased to announce its participation as a founding member of the newly launched Quantum Industrial Standard Association (QuINSA), a Korean-led international information standardization organization dedicated to advancing the quantum information technology industry. The launch ceremony, organized by the Ministry of Science and ICT (MSIT), took place at the Yangjae El Tower in Seoul.

Now, scientists are attempting to make a motion sensor so precise it could minimize the nation's reliance on global positioning satellites. Until recently, such a sensor—a thousand times more sensitive than today's navigation-grade devices—would have filled a moving truck. But advancements are dramatically shrinking the size and cost of this technology.