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The SETI Institute has launched a new grants program to support the advancement of technosignature science, utilizing the Allen Telescope Array (ATA), a crucial observatory in the search for extraterrestrial technology. This program, the first of its kind, will fund research ranging from observational techniques to theoretical models in technosignature science, with grants available for non-tenured faculty and post-prelim graduate students. Credit: SETI Institute.

The SETI Institute’s new grants program supports advanced research in detecting extraterrestrial technosignatures with grants up to $100,000, leveraging the capabilities of the Allen Telescope Array.

The SETI Institute has introduced a groundbreaking grants program focused on advancing technosignature science. This unique initiative is designed to fund innovative research that tackles essential observational, theoretical, and technical challenges in the quest for technosignatures, which may reveal signs of past or present extraterrestrial technology.

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Researchers have discovered sex-specific differences in the nerve cells that generate pain, paving the way for personalized pain management treatments based on patient sex.

Research indicates that men and women experience pain differently, but the reasons behind this have remained unclear. A new study from the University of Arizona Health Sciences, published in the journal BRAIN, has now identified functional sex differences in nociceptors, the specialized nerve cells that produce pain.

The findings support the implementation of a precision medicine-based approach that considers patient sex as fundamental to the choice of treatment for managing pain.

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A synthetic skin for prosthetics limbs that can generate its own energy from solar power has been developed by engineers from Glasgow University.

Researchers had already created an ‘electronic skin’ for prosthetic hands made with new super-material graphene.

The new skin was much more sensitive to touch but needed a power source to operate its sensors.

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The article explains how photosynthesis occurs in humans. It is disclosed that hemoglobin as a photosynthetic pigment is responsible for this process, its structure is identical to chlorophyll in plants, the only thing that changes is the central metallic ring, which in plants is magnesium that gives it its green color. and in humans it is the iron that gives it its red color.

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The vast expanse of the night sky, a canvas dotted with countless stars, is about to unveil a rare and spectacular phenomenon. Brace yourself for a stellar light show as T Coronae Borealis, a seemingly unremarkable star nestled within the constellation Corona Borealis, is on the brink of a dramatic nova explosion.

T Coronae Borealis, affectionately known as T CrB, is no ordinary star. It’s a binary system, a celestial pattern of two stars locked in a gravitational embrace.

At the heart of this cosmic process lies a white dwarf, the incredibly dense remnant of a once-mighty star. Its partner, a bloated red giant, is in the twilight years of its existence, slowly shedding its outer layers under the relentless pull of the white dwarf’s gravity.

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From mundane chores to complex interactions, RoboCasa trains robots to navigate the real world:

Researchers have developed a large-scale simulation framework for training general-purpose robots in diverse, everyday settings.

The framework, called RoboCasa, provides access to thousands of 3D assets over more than 150 object categories, as well as dozens of furniture and appliances that may be interacted with.

A range of generative AI tools are used to increase realism and diversity, including text-to-3D models for object assets and text-to-image models for environmental textures.

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Collectively, the US’s 5 million solar installations can generate more than 179 gigawatts (GW) of electricity. Based on current trends, the SEIA claims that the US’s total solar capacity will soar to 673 GW by 2034, providing enough electricity to power 100 million homes.

The US will likely need to do better than that to meet the Biden Administration’s goal of 100% clean electricity by 2035, though. To decarbonize the grid by then, the Department of Energy (DoE) expects we’ll need as much as 1 terawatt (1,000 GWs) of solar capacity, enough for solar to meet 30–50% of the US’s electricity demand by itself.

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The transition from traditional 2D to 3D microfluidic structures is a significant advancement in microfluidics, offering benefits in scientific and industrial applications. These 3D systems improve throughput through parallel operation, and soft elastomeric networks, when filled with conductive materials like liquid metal, allowing for the integration of microfluidics and electronics.

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