Astronomers have made a historic breakthrough by detecting silicon monoxide in the atmosphere of WASP-121b, an ultra-hot exoplanet. This discovery reveals unique atmospheric conditions and challenges our understanding of planet formation.
A team of scientists has made a groundbreaking discovery regarding the ultra-hot exoplanet WASP-121b, revealing its unique atmospheric composition and formation history using the James Webb Space Telescope.
A stunning archaeological discovery in Spain reveals the oldest known fingerprint of a Neanderthal, raising questions about their ability to create art and symbolize meaning. Experts debate the implications of this find.
Tiny fossil fragments in northern Alaska reveal that ancient birds nested in the Arctic 73 million years ago—30 million years earlier than thought! This groundbreaking discovery transforms our understanding of avian evolution.
Three years ago, a daring research crew discovered Jøtul, the first hydrothermal vent field in the Arctic, revealing new insights into marine life and climate change amidst extreme conditions.
A team of astronomers has made a groundbreaking discovery of a new cosmic object, ASKAP J1832-0911, which emits pulses of radio waves and X-rays. This unprecedented finding could lead to insights into the mysterious signals observed across the universe.
New research reveals that tiny dwarf galaxies played a pivotal role in lighting up the early Universe, surprising scientists who expected larger galaxies to be the key players. This groundbreaking discovery could reshape our understanding of cosmic history.
A groundbreaking discovery on China's Tiangong space station reveals a new rod-shaped bacterium named Nialla tiangongensis. Researchers are intrigued by its origins and implications for life beyond Earth.
A new strain of microbe, Niallia tiangongensis, has been discovered aboard China's Tiangong space station, highlighting its unique adaptations to space conditions and the importance of microbial studies for astronaut health.
In an exciting discovery, scientists have identified a unique microbe inside China's Tiangong space station. Named Niallia tiangongensis, this strain may hold the key to understanding microbial survival in space and safeguarding astronaut health.
