Drawing together leading experts from across the field, an international collaboration of cosmologists has created a unified ...

A team of EPFL researchers has developed an AI algorithm that can model complex dynamical processes while taking into account ...

Advances in supercomputing have made solving a long‐standing astronomical conundrum possible: How can we explain the changes in the chemical composition at the surface of red giant stars as they ...

Explore orbital mechanics with this step-by-step guide to finding Lagrange Point L2 – a more accurate approach! 🌌 Learn how to calculate and understand the stability of objects at the L2 point, ...

Explore advanced space dynamics with the Monte Carlo approach to L2 and L4 stability! 🌌 This video demonstrates how stochastic simulations can be used to analyze the stability of objects at Lagrange ...

Understanding how massive stars evolve and return energy, momentum, and metals to their surroundings is a central problem in ...

"It's really difficult to overstate how bad we are at finding intermediate mass black holes." ...

Scientists have identified a rocky outer planet in a system where a gas giant was expected. The discovery challenges ...

NASA says Earth is about halfway through its lifespan. Scientists explain how solar changes could affect habitability, oceans, and the planet’s future over billions of years ...

This hypothesis has the advantage of explaining why the rings have a lot of ice and little rock, in contrast to models where ...

Lunar-based measurements reveal Earth’s outgoing radiation is dominated by low-order spherical harmonics, providing unified global data for climate and environmental studies ...

Astronomers have spotted a heart in the cosmos — not Cupid's doing, but a dying star shedding its layers — just in time for ...