Hubble Observes Galaxies' Evolution in Slow Motion
It is known today that merging galaxies play a large role in the evolution of galaxies and the formation of elliptical galaxies in particular. However there are only a few merging systems close enough to be observed in depth. The pair of interacting galaxies seen here — known as NGC 3921 — is one of these systems.
NGC 3921 — found in the constellation of Ursa Major (The Great Bear) — is an interacting pair of disk galaxies in the late stages of its merger. Observations show that both of the galaxies involved were about the same mass and collided about 700 million years ago. You can see clearly in this image the disturbed morphology, tails and loops characteristic of a post-merger.
The clash of galaxies caused a rush of star formation and previous Hubble observations showed over 1,000 bright, young star clusters bursting to life at the heart of the galaxy pair.
Image credit: ESA/Hubble & NASA, Acknowledgement: Judy Schmidt
Text credit: European Space Agency
Text credit: European Space Agency
Last Updated: Sept. 18, 2015
Editor: Ashley Morrow
NASA’s Hubble Finds Evidence of Galaxy Star Birth Regulated by Black-Hole Fountain
Astronomers have uncovered a unique process for how the universe’s largest elliptical galaxies continue making stars long after their peak years of star birth. NASA’s Hubble Space Telescope’s exquisite high resolution and ultraviolet-light sensitivity allowed the astronomers to see brilliant knots of hot, blue stars forming along the jets of active black holes found in the centers of giant elliptical galaxies.
Combining Hubble data with observations from a suite of ground-based and space telescopes, two independent teams found that that the black hole, jets, and newborn stars are all parts of a self-regulating cycle. High-energy jets shooting from the black hole heat a halo of surrounding gas, controlling the rate at which the gas cools and falls into the galaxy.
“Think of the gas surrounding a galaxy as an atmosphere,” explained the lead of the first study, Megan Donahue of Michigan State University. “That atmosphere can contain material in different states, just like our own atmosphere has gas, clouds, and rain. What we are seeing is a process like a thunderstorm. As the jets propel gas outward from the center of the galaxy, some of that gas cools and precipitates into cold clumps that fall back toward the galaxy’s center like raindrops.”
“The ‘raindrops’ eventually cool enough to become star-forming clouds of cold molecular gas, and the unique far ultraviolet capabilities of Hubble allowed us to directly observe these ‘showers’ of star formation,” explained the lead of the second study, Grant Tremblay of Yale University. “We know that these showers are linked to the jets because they’re found in filaments and tendrils that wrap around the jets or hug the edges of giant bubbles that the jets have inflated,” said Tremblay, “And they end up making a swirling ‘puddle’ of star-forming gas around the central black hole.”
But what should be a monsoon of raining gas is reduced to a mere drizzle by the black hole. While some outwardly flowing gas will cool, the black hole heats the rest of the gas around a galaxy, which prevents the whole gaseous envelope from cooling more quickly. The entire cycle is a self-regulating feedback mechanism, like the thermostat on a house’s heating and cooling system, because the “puddle” of gas around the black hole provides the fuel that powers the jets. If too much cooling happens, the jets become more powerful and add more heat. And if the jets add too much heat, they reduce their fuel supply and eventually weaken.
This discovery explains the mystery of why many elliptical galaxies in the present-day universe are not ablaze with a higher rate of star birth. For many years, the question has persisted of why galaxies awash in gas don’t turn all of that gas into stars. Theoretical models of galaxy evolution predict that present-day galaxies more massive than the Milky Way should be bursting with star formation, but that is not the case.
Now scientists understand this case of arrested development, where a cycle of heating and cooling keeps star birth in check. A light drizzle of cooling gas provides enough fuel for the central black hole’s jets to keep the rest of the galaxy’s gas hot. The researchers show that galaxies don’t need fantastic and catastrophic events such as galaxy collisions to explain the showers of star birth they see.
The study led by Donahue looked at far-ultraviolet light from a variety of massive elliptical galaxies found in the Cluster Lensing And Supernova Survey with Hubble (CLASH), which contains elliptical galaxies in the distant universe. These included galaxies that are raining and forming stars, and others that are not. By comparison, the study by Tremblay and his colleagues looked at only elliptical galaxies in the nearby universe with fireworks at their centers. In both cases, the filaments and knots of star-birth appear to be very similar phenomena. An earlier, independent study, led by Rupal Mittal of the Rochester Institute of Technology and the Max Planck Institute for Gravitational Physics, also analyzed the star-birth rates in the same galaxies as Tremblay’s sample.
The researchers were aided by an exciting, new set of computer simulations of the hydrodynamics of the gas flows developed by Yuan Li of the University of Michigan. “This is the first time we now have models in hand that predict how these things ought to look,” explains Donahue. “And when we compare the models to the data, there’s a stunning similarity between the star-forming showers we observe and ones that occur in simulations. We’re getting a physical insight that we can then apply to models
Along with Hubble, which shows where the old and the new stars are, the researchers used the Galaxy Evolution Explorer (GALEX), the Herschel Space Observatory, the Spitzer Space Telescope, the Chandra X-ray Observatory, the X-ray Multi-Mirror Mission (XMM-Newton), the National Radio Astronomy Observatory (NRAO)’s Jansky Very Large Array (JVLA), the National Optical Astronomy Observatory (NOAO)’s Kitt Peak WIYN 3.5 meter telescope, and the Magellan Baade 6.5 meter telescope. Together these observatories paint the complete picture of where all of the gas is, from the hottest to the coldest. The suite of telescopes shows how galaxy ecosystems work, including the black hole and its influence on its host galaxy and the gas surrounding that galaxy.
Donahue’s paper was published in the Astrophysical Journal on June 2, 2015. Tremblay’s paper was published in the Monthly Notices of the Royal Astronomical Society on June 29, 2015.
The Hubble Space Telescope is a project of international cooperation between NASA and the European Space Agency. NASA’s Goddard Space Flight Center in Greenbelt, Maryland, manages the telescope. The Space Telescope Science Institute (STScI) in Baltimore, Maryland, conducts Hubble science operations. STScI is operated for NASA by the Association of Universities for Research in Astronomy, in Washington.
For additional images and more information about Hubble, visit:
Related Link
Ann Jenkins / Ray Villard
Space Telescope Science Institute, Baltimore
jenkins@stsci.edu / villard@stsci.edu
Space Telescope Science Institute, Baltimore
jenkins@stsci.edu / villard@stsci.edu
Last Updated: Aug. 6, 2015
Editor: Rob Garner
el dispensador dice:
alguien está naciendo,
en la geometría del espacio,
unos vienen siendo alumbrados,
mientras otros van siendo pensados...
¿de qué lado del arte estás...,
de la tela o lo pintado...?...
¿de la paleta o de lo manchado?...
¿del trazo o lo borroneado?...
no abandones lo que te han enviado,
el don no debe ser despreciado,
mucho menos si el talento viene aflorando...
siempre hay un mundo oportuno,
que te puede estar esperando...
todo es cuestión de descubrir,
dónde fuiste alumbrado...
los nacidos de madre no son sólo humanos...
los hay viajeros... y también sabios.
OCTUBRE 28, 2015.-
el dispensador dice:
alguien está naciendo,
en la geometría del espacio,
unos vienen siendo alumbrados,
mientras otros van siendo pensados...
¿de qué lado del arte estás...,
de la tela o lo pintado...?...
¿de la paleta o de lo manchado?...
¿del trazo o lo borroneado?...
no abandones lo que te han enviado,
el don no debe ser despreciado,
mucho menos si el talento viene aflorando...
siempre hay un mundo oportuno,
que te puede estar esperando...
todo es cuestión de descubrir,
dónde fuiste alumbrado...
los nacidos de madre no son sólo humanos...
los hay viajeros... y también sabios.
OCTUBRE 28, 2015.-
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