Satellite Images Reveal the Widespread Destruction of Los Angeles Fires from Space
The ongoing wildfires in Southern California have caused extensive destruction, with over 34,000 acres burned and significant damage to homes, businesses, and infrastructure reported. At least 10 fatalities have been confirmed, and numerous individuals have been injured since the fires ignited earlier this week. The largest of these fires, the Palisades Fire, has ravaged nearly 20,000 acres, becoming the most destructive wildfire in Los Angeles history. Fire containment efforts are ongoing, with only a small percentage of the affected areas brought under control.
Massive Scale Captured by Satellite Images
According to satellite data provided by Maxar Technologies, the extent of damage caused by the fires has been captured in vivid detail. Infrared imaging has revealed active fire hotspots and burning buildings despite the dense smoke covering affected regions. The Palisades Fire has left vast portions of the Pacific Coast Highway and nearby Malibu neighbourhoods charred, with entire homes reduced to ash. A false-colour satellite image shared by Planet Labs highlights vegetation loss, with smoke plumes towering above the devastated areas.
Efforts to Protect Key Infrastructure
As reported by space.com, reports from the California Department of Forestry and Fire Protection have confirmed that the Eaton Fire, which scorched approximately 10,600 acres, reached the base of Mount Wilson. The area houses transmitters and antennas critical to communication systems and the historic Mount Wilson Observatory. Reports indicate that firefighters successfully prevented significant damage to the observatory and restored power to the facility.
Similarly, the Jet Propulsion Laboratory (JPL), located at the base of the San Gabriel Mountains, was safeguarded by emergency responders. In a statement shared via social media, JPL Director Laurie Leshin acknowledged the bravery of firefighters who shielded the facility while expressing concern for over 150 JPL employees who lost their homes in the disaster.
Emergency services remain deployed across the region to contain the fires and support affected communities.
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Ancient Roman Inscriptions help us understand laws, traditions, economy, and even the emotional perspective of ancient people. Their lives and histories, however, have been rendered difficult to understand because, over time, the inscriptions have been damaged. Every year, there are 1500 Roman inscriptions discovered, albeit many of them are incomplete. Fortunately, advancements in technology like the new Aeneas tool, is helping in the future understanding of the Roman inscriptions. It serves as a large language model specializing in reading, interpreting, and giving context to Roman inscriptions.
Decode Ancient Roman Inscriptions
As Per Report,Drawing its name from a hero in Roman history, Aeneas, the model has been trained on nearly 200,000 latian inscriptions, which span from the 7th century to the 8th century covering regions from Portugal to Iraq.Aneas has the capability to analyze images of damaged inscriptions and predict or even fill in missing letters or words. In addition to that, it is able to determine a time frame and location for the inscription, as well as cross-reference it with other inscriptions containing similar phrases or purposes.
Making History Clearer Through Technology
Since Aeneas is trained exclusively on Latin inscriptions, specialists believe that he is less prone to random or false errors when compared to general AI approaches. University of Sydney historian Anne Rogerson remarked that Aeneas’s proposals, as informed guesses, still involve real historical data as opposed to baseless conjectures.
Despite the model’s open availability,Made public alongside the model’s code and data, Aeneas’s creator, Google DeepMind, offered the model without restrictions.
Most impressively, Aeneas can be accessed for free, enabling students and researchers to shift through and reinterpret previously concealed fragments of Roman history to understand them on a deeper level.
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Astronomers using a global radio telescope array have captured a record-sharp image of the blazar OJ 287, showing its particle jet is sharply bent. This twisted jet provides compelling evidence that OJ 287’s core contains not one but two supermassive black holes in a tight orbit. For decades, OJ 287’s ~12-year cycle of flares hinted at a secondary black hole, and the new image confirms that model. In fact, this appears to be the most extreme binary black hole system ever observed. Researchers say the finding makes OJ 287 “an ideal candidate for further research into merging black holes and the associated gravitational waves”.
Twisted Jet Reveals a Cosmic Duo
According to the study, using an Earth-space radio interferometer, astronomers produced an ultra-sharp image of OJ 287’s center. The image shows the jet bends sharply three times within ~0.3 light-year and swings by about 30° over a few years. Such dramatic twists so close in are naturally explained by a second black hole tugging on the jet’s base. This fits the picture of OJ 287’s 12-year flare cycle: a ~150-million-solar-mass companion plunges through the primary’s accretion disk roughly every 12 years, triggering bright outbursts and bending the jet. The observations even caught a shock wave forming in the jet, unleashing a burst of gamma rays seen by NASA’s Fermi and Swift satellites. Astronomers say this twisted, ribbon-like jet is the clearest evidence yet of two supermassive black holes locked in a gravitational tug-of-war.
Implications for Black Hole Evolution
OJ 287’s black holes will eventually merge, but that won’t happen for a very long time. In the meantime, their orbit sends out ultra-long-wavelength gravitational waves that current detectors cannot pick up. Scientists expect pulsar-timing arrays – which monitor the ticking of distant neutron stars – may detect this faint gravitational-wave signal. Looking farther ahead, future space missions like ESA/NASA’s planned LISA observatory (2030s) could catch the final merger of such supermassive pairs.
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