TL;DR In the vast expanse of the cosmos, the profound gravitational influence exerted by black holes greedily ensnares swirling maelstroms of gaseous matter, known as accretion disks. The enigma known as the “Lense-Thirring effect” imparts a peculiar trajectory to matter falling into
TL;DR In the vast expanse of the cosmos, the profound gravitational influence exerted by black holes greedily ensnares swirling maelstroms of gaseous matter, known as accretion disks. The enigma known as the “Lense-Thirring effect” imparts a peculiar trajectory to matter falling into
TL;DR Researchers from the esteemed halls of the University of Cambridge have presented a fresh way for measuring the conundrum known as dark energy, that enigmatic cosmic force that accounts for more than two-thirds of the universe’s composition and serves as the
TL;DR The groundbreaking theory of odd metals, developed by researchers at Harvard University and the Foundry Center in New York City, examines the puzzling behavior of some materials that defy conventional wisdom. Strange metals, which occupy a distinct region between common metals
TL;DR Astronomers quantify dark matter’s mass around quasars for the first time. Dark matter acts as a cosmic courier, fueling supermassive black holes. The discovery could revolutionize our understanding of galaxy evolution. A cadre of astronomers has, for the inaugural time, assessed