NASA : Hubble Sees Starbursts in Virgo .- Telescopio Espacial Hubble ve explosión de estrellas en la Constelación de Virgo

https://www.nasa.gov/image-feature/goddard/2017/hubble-sees-starbursts-in-virgo

      

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Credits: NASA's Goddard Space Flight Center/Jenny Hottle

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Although galaxy formation and evolution are still far from being fully understood, the conditions we see within certain galaxies — such as so-called starburst galaxies — can tell us a lot about how they have evolved over time. Starburst galaxies contain a region (or many regions) where stars are forming at such a breakneck rate that the galaxy is eating up its gas supply faster than it can be replenished!

 

A pesar de que la formación y evolución de las galaxias están aún lejos de ser plenamente comprendidas, las condiciones que vemos en ciertas galaxias -como las llamadas galaxias estelares- nos pueden decir mucho sobre cómo han evolucionado con el tiempo. Las galaxias de Starburst contienen una región (o muchas regiones) donde las estrellas se están formando a una velocidad tan vertiginosa que la galaxia está comiendo su suministro de gas más rápido de lo que se puede reponer.

NGC 4536 is such a galaxy, captured here in beautiful detail by the Hubble’s Wide Field Camera 3 (WFC3). Located roughly 50 million light-years away in the constellation of Virgo (The Virgin), it is a hub of extreme star formation. There are several different factors that can lead to such an ideal environment in which stars can form at such a rapid rate. Crucially, there has to be a sufficiently massive supply of gas. This might be acquired in a number of ways — for example by passing very close to another galaxy, in a full-blown galactic collision, or as a result of some event that forces lots of gas into a relatively small space.

Star formation leaves a few tell-tale fingerprints, so astronomers can tell where stars have been born. We know that starburst regions are rich in gas. Young stars in these extreme environments often live fast and die young, burning extremely hot and exhausting their gas supplies fairly quickly. These stars also emit huge amounts of intense ultraviolet light, which blasts the electrons off any atoms of hydrogen lurking nearby (a process called ionization), leaving behind often colorful clouds of ionized hydrogen (known in astronomer-speak as HII regions).

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Credit: ESA/Hubble & NASA
Text Credit: European Space Agency

Last Updated: April 14, 2017

Editor: Karl Hille

Tags:  Galaxies, Goddard Space Flight Center, Hubble Space Telescope, Image of the Day, Universe,

NASA
Guillermo Gonzalo Sánchez Achutegui
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NASA : Hubble Sees a Supermassive and Super-hungry Galaxy .- Telescopio Espacial Hubble ve una galaxia Supermassive y Super-hambre

Hola amigos: A VUELO DE UN QUINDE EL BLOG., Esta imagen del telescopio espacial de la NASA / ESA Hubble muestra la galaxia espiral NGC 4845, que se encuentra más de 65 millones de años-luz de distancia en la constelación de Virgo (La Virgen). La orientación de la galaxia revela claramente sorprendente estructura espiral de la galaxia: un disco plano y sin polvo que rodea a una abigarrada bulbo galáctico brillante.
Centro brillante de NGC 4845 alberga una versión gigantesca de un agujero negro, conocido como un agujero negro supermasivo. La presencia de un agujero negro en una galaxia lejana como NGC 4845 se puede deducir de su efecto en las estrellas más internas de la galaxia; estas estrellas experimentan una fuerte atracción gravitatoria del agujero negro y el genio de alrededor del centro de la galaxia mucho más rápido que lo contrario.

More information.....

http://www.nasa.gov/image-feature/goddard/2016/hubble-sees-a-supermassive-and-super-hungry-galaxy

 

This NASA/ESA Hubble Space Telescope image shows the spiral galaxy NGC 4845, located over 65 million light-years away in the constellation of Virgo (The Virgin). The galaxy’s orientation clearly reveals the galaxy’s striking spiral structure: a flat and dust-mottled disk surrounding a bright galactic bulge.

NGC 4845’s glowing center hosts a gigantic version of a black hole, known as a supermassive black hole. The presence of a black hole in a distant galaxy like NGC 4845 can be inferred from its effect on the galaxy’s innermost stars; these stars experience a strong gravitational pull from the black hole and whizz around the galaxy’s center much faster than otherwise.

From investigating the motion of these central stars, astronomers can estimate the mass of the central black hole — for NGC 4845 this is estimated to be hundreds of thousands times heavier than the sun. This same technique was also used to discover the supermassive black hole at the center of our own Milky Way — Sagittarius A* — which hits some four million times the mass of the sun.

The galactic core of NGC 4845 is not just supermassive, but also super-hungry. In 2013 researchers were observing another galaxy when they noticed a violent flare at the center of NGC 4845. The flare came from the central black hole tearing up and feeding off an object many times more massive than Jupiter. A brown dwarf or a large planet simply strayed too close and was devoured by the hungry core of NGC 4845.

Image credit: ESA/Hubble & NASA and S. Smartt (Queen's University Belfast)
Text credit: European Space Agency

Last Updated: Jan. 8, 2016

Editor: Ashley Morrow

Tags:  Active Galactic Nuclei, Black Holes, Galaxies, Goddard Space Flight Center, Hubble Space Telescope, Image of the Day, Universe,

NASA
Guillermo Gonzalo Sánchez Achutegui
ayabaca@gmail.com
ayabaca@hotmail.com
ayabaca@yahoo.com
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