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Liquid crystal is a state of matter that exhibits properties of both liquid and solid. It can flow like a liquid, while its constituent molecules are aligned as in a solid. Liquid crystal is widely used nowadays, for example, as a core element of LCD devices.

The magnetic analog of this kind of material is dubbed the “spin-nematic phase,” where spin moments play the role of the molecules. However, it has not yet been directly observed despite its prediction a half-century ago. The main challenge stems from the fact that most conventional experimental techniques are insensitive to spin quadrupoles, which are the defining features of this spin-nematic phase.

But now, for the first time in the world, a team of researchers led by Professor Kim Bumjoon at the IBS Center for Artificial Low-Dimensional Electronic Systems in South Korea has succeeded at directly observing spin quadrupoles. This work was made possible through remarkable achievements over the last decades in synchrotron facility development.

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WASHINGTON — U.S. Space Command, the Defense Department’s combatant command responsible for space operations, has achieved full operational capability, its commander Gen. James Dickinson announced Dec. 15.

In short, this means that U.S. Space Command is now fully up and running. It has the staff, infrastructure and plans it needs to handle its mission of conducting space operations and protecting American and allied assets and interests in space.

U.S. Space Command, established in 2019 in Colorado Springs, is tasked to monitor space activity and threats, support other military units with space capabilities like communications and surveillance, respond to crises involving space, deter aggression and defeat enemies if needed.

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The company announces its latest huge chip — but will now focus on developing smaller chips with a fresh approach to ‘error correction’

The second-largest quantum computing chip won’t be fitted into IBM’s next-generation System Two quantum computer. Instead, it will use three smaller 133-qubit chips with a much lower error rate.

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Differences in information transmission in the brain network between humans and other species are not well understood. Here, the authors apply an information theory approach to structural connectomes and functional MRI and report that human brain networks display more evidence of parallel information transmission compared to macaques and mice.

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Quantum physics is fundamentally weird, so much so that we need thought experiments of hidden cats in boxes and metaphors of spinning coins to even begin to comprehend its laws.

Yet even in our classical world, where physics is more intuitive, shades of quantum behavior can be represented using relatively simple scenarios.

Researchers experimenting with tiny droplets of oil running down two adjacent channels in a bath of vibrating fluid have discovered that the behavior of the droplets matches up with a famous quantum thought experiment.

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