Researchers develop room-temperature quantum sensor for gravitational waves

Scientists at MIT have created a quantum sensor capable of detecting gravitational waves at room temperature, potentially transforming astrophysics research. The device, detailed in a new Nature study, uses defects in diamonds to measure minute gravitational changes. This breakthrough could enable more accessible detection of cosmic events like black hole mergers.

Scientists develop new AI method for dark matter detection

1 октября 2025 Сообщено ИИ

Researchers have introduced an innovative artificial intelligence approach to identify dark matter particles, using data from existing telescopes. This breakthrough could enhance our understanding of the universe's invisible components. The findings were detailed in a study published on September 29, 2025.

Strongest Black Hole Collision Detected

Astronomers detected the strongest black hole collision yet on September 11, 2025, resonating with Einstein's predictions. The event involved massive black holes merging, producing significant gravitational waves. This finding was published in a leading science journal, advancing astrophysics.

Researchers unveil new AI method for dark matter detection

2 октября 2025 Сообщено ИИ

Scientists at the University of California have introduced an innovative AI-driven technique to identify dark matter signals from telescope data. The method, detailed in a recent Nature publication, promises to enhance detection accuracy significantly. This breakthrough could accelerate the confirmation of dark matter particles.