Las ondas gravitacionales podrían haber creado la materia oscura del universo temprano

Building on prior detections of gamma-ray emissions from the Milky Way's center, physicists led by Gordan Krnjaic at Fermilab propose dark matter consists of two distinct particles that interact to produce detectable signals. This resolves the puzzle of signals in the Milky Way but none in dark-matter-rich dwarf galaxies, as observed by the Fermi Gamma-ray Space Telescope.

7 de febrero de 2026 Reportado por IA

Astronomers suggest that the Milky Way's core might host a dense clump of fermionic dark matter rather than a supermassive black hole. This structure could explain the rapid orbits of nearby stars and the smoother rotation of distant material. The findings, published in Monthly Notices of the Royal Astronomical Society, challenge long-held views of Sagittarius A*.

Physicists at Heidelberg University have developed a theory that unites two conflicting views on how impurities behave in quantum many-body systems. The framework explains how even extremely heavy particles can enable the formation of quasiparticles through tiny movements. This advance could impact experiments in ultracold gases and advanced materials.

12 de marzo de 2026 Reportado por IA

Astronomers have uncovered evidence that a black hole and neutron star merged while following an unusual oval-shaped orbit, challenging expectations of circular paths in such events. The discovery comes from a reanalysis of gravitational wave data from the event known as GW200105. This finding suggests the system formed in a dynamic stellar environment.