Lifeboat Foundation

Using a quantum processor, researchers made microwave photons uncharacteristically sticky. After coaxing them to clump together into bound states, they discovered that these photon clusters survived in a regime where they were expected to dissolve into their usual, solitary states. As the finding was first made on a quantum processor, it marks the growing role that these platforms are playing in studying quantum dynamics.

Photons — quantum packets of electromagnetic radiation like light or microwaves — usually don’t interact with one another. For example, two crossed flashlight beams pass through one another undisturbed. However, microwave photons can be made to interact in an array of superconducting qubits.

Researchers at Google Quantum AI describe how they engineered this unusual situation in “Formation of robust bound states of interacting photons,” which was published on December 7 in the journal Nature. They investigated a ring of 24 superconducting qubits that could host microwave photons. By applying quantum gates to pairs of neighboring qubits, photons could travel around by hopping between neighboring sites and interacting with nearby photons.

Chemist Martial Gervais Oden-Bella developed a method for recycling used cooking oil by turning it into soap! Not only is he helping the environment, but he’s made a profitable business in the process.

In Cameroon, people were tossing the used oil down the drain, which can pollute water treatment systems and the environment. When the oil ends up in the environment, it’s harmful and toxic to wildlife. Now the businesses (restaurants and hotels in the southwestern city of Douala) save the used oil to give to Oden-Bella, who turns it into soap and other cleaning products.

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LEV Foundation’s flagship research program is a sequence of large mouse lifespan studies, each involving the administration of (various subsets of) at least four interventions that have, individually, shown promise in others’ hands in extending mean and maximum mouse lifespan and healthspan.

We focus on interventions that have shown efficacy when begun only after the mice have reached half their typical life expectancy, and mostly on those that specifically repair some category of accumulating, eventually pathogenic, molecular or cellular damage. The first study in this program is starting in January 2023.

The buzz will likely ramp up even more when OpenAI releases a superior next version of the A.I. chatbot, reportedly sometime next year.

Speaking of buzz, few people have been generating more of it lately than Elon Musk, who leads Tesla, SpaceX, and now Twitter, among other companies. As it turns out, Musk has ties to OpenAI, including as an original backer, and has been involved in both supporting artificial intelligence and warning about its dangers.

This month Musk called ChatGPT “scary good” and warned, “We are not far from dangerously strong AI.”

What is it? MHD PROPULSION EXPLAINED

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Continue reading “Magnetohydrodynamic (MHD) Propulsion — What Is It?” »

By using light waves that essentially spiral through space like corkscrews, optical logic gates can run one million times faster than their electronic counterparts, advancing the cause for ultra-fast, light-based computing, a new study finds.

Even guardians of America’s atomic clocks say time doesn’t work the way we think it does.

The United Kingdom government has announced that Virgin Atlantic will fly a historic net zero London-New York flight in 2023.

“For decades, flying from London to New York has symbolized aviation’s ability to connect people and drive international progress. It’s now going to be at the forefront of cutting carbon emissions from flying,” said British transport secretary Mark Harper.

“Not only will this flight pave the way for future generations, but it will demonstrate just how much we can achieve when we work together on a shared goal — bringing together some of the best businesses and academics in the world and led by a British airline.”

Continue reading “World’s first net-zero transatlantic flight: Fly London to New York on used cooking oil” »

AI is used by the robotic solution to swiftly adapt to all types of blades used in the sector.

Danish energy solutions provider Vestas has unveiled BladeRobots as a stand-alone business with an automated robotic technology solution for the maintenance of wind turbines.

The robot performs automated blade-leading edge maintenance up to “four times faster” than traditional manual methods, according to a press release by the company published on Wednesday.