💫Nuevo!! Universo Mágico ha creado una Sala de Chat para que puedas conversar en tiempo real. Si eres Autor prueba la opción Nueva Entrada

Los aficionados ya pueden escribir sobre astronomía. Date de alta como
Autor en Universo Mágico Público.

💫Comunidades de Astronomía en Google Plus: Universo Mágico - Astronomy Lab - Space Roads - Space World - Astronomy Station

💫Grupos de Astronomía en Facebook: Astronomy & Space Exploration - Universo Mágico
- Big Bang - Galicia Astronómica

💫X-rays Reveal Nature of Spiral Galaxy's Boisterous Activity

Chandra's image of M83 shows numerous point-like neutron star and black hole X-ray sources scattered throughout the disk of this spiral galaxy. The bright nuclear region of the galaxy glows prominently due to a burst of star formation that is estimated to have begun about 20 million years ago in the galaxy's time frame. The observation revealed that the nuclear region contains a much higher concentration of neutron stars and black holes than the rest of the galaxy. Also discovered was a cloud of 7 million-degree Celsius gas enveloping the nuclear region. The picture that emerges is one of enhanced star formation in the nuclear region that has produced more massive stars, leading to more supernova explosions, neutron stars and black holes.

This activity could also account for the hot gas cloud which shows evidence for an excess of carbon, neon, magnesium, silicon and sulfur atoms. Mass evaporating from massive stars, and the ejecta from supernovas have enriched the gas with carbon and other elements. Hot gas with a slightly lower temperature of 4 million degrees was observed along the spiral arms of the galaxy. This suggests that star formation may be occurring at a more sedate rate in the spiral arms, consistent with the observation of proportionately fewer bright point-like sources there compared to the nucleus.

NASA/CXC/U.Leicester/U.London/R.Soria & K.Wu

Australia Science (Google Plus) 
Astronomy Station (Google Plus) 

Publicar un comentario