Artificial intelligence is reshaping brain modeling. This review introduces a unified framework where AI functions as a surrogate brain by integrating dynamical modeling, inverse problem solving, and ...

Surprisingly, some of the universe's brightest objects are black holes. As scorching gas and dust flow around and into a ...

Building on decades of effort, Lizhong Zhang, Member (2023–24) in the School of Natural Sciences; James Stone, Professor in ...

Using cutting-edge algorithms and exascale supercomputers, researchers have created the most realistic simulations yet of matter flowing into black holes. Building on decades of research, a group of c ...

Building on decades of effort, a team of computational astrophysicists has achieved a major milestone: developing the most comprehensive model to date ...

Without internal work ( u = 0), convergence of automatic operations to controlled standards occurs only if the memory ...

A team of computational astrophysicists from the Institute for Advanced Study and the Flatiron Institute's Center for ...

Even the best telescopes can’t see exoplanets. It’s all about watching for jiggly stars, blue shifts, and transits.

So, for those struggling to reach Monty's boss fight arena, here's how to solve the Mazercise puzzle and escape through the vent concealed within it. To be frank, Mazercise can be very frustrating, ...

A "House of Cards" is a wonderful English phrase that it seems is now primarily associated with a Netflix political drama.

RIT astrophysicist uses AI and machine learning to hunt for systems that will lead to understanding how stars live, die, and ...