New images of black hole M87* reveal dramatic changes in its magnetic fields, challenging our understanding of these cosmic giants. Discover the latest findings and what they mean for astrophysics!
Scientists have made groundbreaking discoveries about the supermassive black hole M87*, revealing unexpected changes in its magnetic fields and jets. These findings challenge existing theories and provide new insights into black hole physics. Stay tuned for the upcoming Astronomy & Astrophysics paper detailing these revelations!
A groundbreaking study reveals that the universe's first magnetic fields were significantly weaker than previously thought, comparable to the electrical activity in the human brain. Discover the implications of these findings on our understanding of the cosmic web.
Scientists have unraveled the enigma surrounding PKS 1424+240, a blazar with a powerful black hole at its center. Despite its incredible brightness, the speed of its jets appears slow, leading to a captivating optical illusion. Discover how a 15-year study clarified this cosmic conundrum!
Researchers at Fudan and Peking Universities have achieved a groundbreaking observation of the nonlinear Nernst effect in non-magnetic ABA trilayer graphene, paving the way for efficient thermoelectric energy harvesting without magnetic fields.
A groundbreaking study reveals a strong correlation between Earth's magnetic field strength and atmospheric oxygen levels, shedding light on the planet's habitability and the emergence of life.
Astronomers have captured unprecedented images of the Sun's south pole, revealing its tumultuous nature and paving the way for understanding solar behavior that affects Earth.
In a groundbreaking achievement, the Solar Orbiter spacecraft has captured the first-ever images of the Sun's poles, unveiling new insights into solar activity and magnetic fields. This mission is set to transform our understanding of space weather.
For the first time, the Solar Orbiter spacecraft has unveiled breathtaking images of the sun's south pole, revealing its chaotic magnetic activity and marking a groundbreaking advance in solar science.
Scientists at the National Solar Observatory have developed groundbreaking adaptive optics technology that allows for the first-time detailed observation of the Sun's corona, revealing previously unseen structures and insights into solar phenomena.