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Supercomputers decode the strange behavior of Enceladus’s plumes

Supercomputers are rewriting our understanding of Enceladus’ icy plumes and the mysterious ocean that may harbor life beneath them. Cutting-edge simulations show that Enceladus’ plumes are losing 20–40% less mass than earlier estimates suggested. The new models provide sharper insights into subsurface conditions that future landers may one day probe directly.

In the 17th century, astronomers Christiaan Huygens and Giovanni Cassini pointed some of the earliest telescopes at Saturn and made a surprising discovery. The bright structures around the planet were not solid extensions of the world itself, but separate rings formed from many thin, nested arcs.

Centuries later, NASA’s Cassini-Huygens (Cassini) mission carried that exploration into the space age. Starting in 2005, the spacecraft returned a flood of detailed images that reshaped scientists’ view of Saturn and its moons. One of the most dramatic findings came from Enceladus, a small icy moon where towering geysers shot material into space, creating a faint sub-ring around Saturn made of the ejected debris.

Historic Physics Breakthrough as Scientists Catch Dark Matter Behaving in Real Time | Highlights

The universe is mostly invisible. Dark matter, the mysterious substance making up 85% of cosmic mass, has been detected through a stunning gamma-ray signal. Join us as we break down the research by a University of Tokyo astrophysicist who believes he has caught WIMP particles destroying each other a finding that redefines our place in the cosmos.

#universe #space #darkmatter #wion.

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Study finds AI can safely assist with some software annotation tasks

A dystopian future where advanced artificial intelligence (AI) systems replace human decision-making has long been a trope of science fiction. The malevolent computer HAL, which takes control of the spaceship in Stanley Kubrick’s film, 2001: A Space Odyssey, is a chilling example.

But rather than being fearful of automation, a more useful response is to consider what types of repetitive human tasks could be safely offloaded to AI, particularly with the advances of large language models (LLMs) that can sort through vast amounts of data, see patterns and make predictions.

Such is the area of research co-authored by Christoph Treude, an Associate Professor of Computer Science at Singapore Management University (SMU). The team explores potential roles for LLMs in annotating software engineering artifacts, a process that is expensive and time-consuming when done manually.

Mitochondrial DNA Acts as a “First Hit” for Antibody-Mediated TRALI

Transfusion-related acute lung injury (TRALI) is the leading cause of transfusion-related mortality, but its pathogenesis is complex and not well understood. TRALI is thought to develop under a “2-hit” model. In 80% of cases, the second hit is caused by antibodies (specifically anti-HLA class I or II or anti-human neutrophil antigen antibodies); bioactive lipids, extracellular vesicles and other storage-related transfusion products have been linked to the remainder of the TRALI cases. The first-hit, which is related to the patient’s underlying clinical condition, is less well defined. Since patients receiving intensive care are more prone to TRALI and often have elevated levels of extracellular mitochondrial DNA (mtDNA), researchers used a murine model to examine whether mitochondria, mtDNA or other damage-associated molecular patterns (DAMPs) can act as a first-hit in an antibody-dependent murine model of TRALI. Injection of purified mitochondria or mtDNA followed by a monoclonal antibody (as a second-hit) caused significantly greater lung injury with increased pulmonary edema, elevated plasma macrophage inflammatory protein-2 (MIP-2; the mouse ortholog of human IL-8), enhanced neutrophil lung infiltration, hypothermia, and respiratory distress compared to an isotype control. Researchers found that an antagonist to toll-like receptor-9 (TLR-9) attenuated many of the TRALI-like symptoms in mice suggesting that mtDNA and TLR-9 may be involved in the first-hit in some TRALI cases. Targeting mtDNA or the TLR-9 receptor may prove to be a novel therapeutic strategy to prevent the first-hit and TRALI, but further research is needed.

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It’s official — Princeton University researchers identify an “inner core” next to Neptune that revolutionizes models of the Solar System

It is beyond Neptune, between 30 and 50 AU from the Sun, and it is very frozen. That is also where Pluto, Makemake, Eris and thousands of small bodies are.

Entanglement-enhanced optical lattice clock achieves unprecedented precision

Optical lattice clocks are devices that measure the passing of time via the frequency of light that is absorbed or emitted by laser-cooled atoms trapped in a repeating pattern of light interference known as optical lattice.

These clocks are significantly more precise than classical clocks and could pick up subtle physical phenomena. They could also be used to test the predictions of various physics theories and could help to improve the performance of existing timekeeping, sensing and communication systems.

Researchers at JILA National Institute of Standards and Technology and University of Colorado recently introduced a new strontium atom-based optical lattice clock that achieved unprecedented precision.

Nanowire platform reveals elusive astrocytes in their natural state

Scientists have engineered a nanowire platform that mimics brain tissue to study astrocytes, the star-shaped cells critical for brain health, for the first time in their natural state.

Astrocytes are the brain’s most abundant and mysterious cells, responsible for regulating communication between neurons and helping to maintain the blood-brain barrier. They are also highly dynamic shape-shifters, something they do not do on typical petri dishes, leaving major gaps in our understanding of how they operate.

“Frustratingly, little is known about the stunning diversity of astrocyte morphology and we also don’t know much about the molecular machinery behind these shape shifts,” said co-senior author Ishan Barman, a Johns Hopkins University bioengineer. “They won’t take on these shapes on glass, so the question for us was how do we replicate the in vivo shape but in vitro?”

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