Simulações em supercomputador explicam a formação de campos magnéticos cósmicos

New supercomputer models indicate that magnetic fields enable two protostars to form a close binary system by removing angular momentum from the surrounding gas.

05 de maio de 2026 Reportado por IA

Scientists at California Polytechnic State University have discovered new forms of quantum matter by varying magnetic fields over time. The breakthrough, detailed in Physical Review B, shows that time-dependent control can produce stable quantum states without static equivalents. This could advance quantum computing by making systems more resistant to errors.

Active galactic nuclei could be sites of massive planet formation, according to new models. Researchers suggest millions of worlds, some unusually large, may arise in the dusty discs surrounding supermassive black holes.

05 de junho de 2026 Reportado por IA

An international team has uncovered a complex network of topological electronic states inside cobalt that remain stable at room temperature. The finding challenges decades of assumptions about the well-studied metal and points to potential uses in spintronics and quantum technologies.