Scientists have identified phenomena in deep space that can act as naturally occurring “space weather stations” far beyond our solar system.

Among the most prevalent stars in our galaxy are red dwarfs, M-dwarf stars that are smaller and cooler than our Sun. The ...

Wild grain, mismatched segments, and controlled curves came together in this torus turning. The result walks the line between ...

James Webb Space Telescope interferometric data indicate that hot dust near the Circinus black hole produces most infrared emission, revising earlier interpretations of outflows.

Carnegie’s Luke Bouma shared groundbreaking research at the American Astronomical Society meeting, demonstrating that large ...

Abstract: 3D Masked Point Modeling (MPM) typically involves randomly or blockly discarding points or patches and then reconstructing them, offering a promising avenue for exploring geometric ...

Scientists have identified an unexpected way to study the hidden space weather of distant stars by observing strange, ...

Abstract: High-temperature superconductors (HTSs) could enable a new paradigm for lightweight and efficient electric machine designs. While superconducting rotors have been successfully implemented, ...

Artist's rendition of the space weather around M dwarf TIC 141146667.  The torus of ionized gas is sculpted by the star's magnetic field and rotation, with two pinched, dense clumps present on ...

Carnegie's Luke Bouma presented exciting new research at the American Astronomical Society meeting revealing how large clumps of cool plasma that are trapped in an M dwarf star's magnetosphere can be ...