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Mystery of Evolution from Young-to-Old-"Red" Galaxies Solved

Fig2 University of California, Berkeley, astronomers may have found the missing link between gas-filled, star-forming galaxies and older, gas-depleted galaxies typically characterized as "red and dead." The
Berkeley astronomers reported that a long-known "early-type" galaxy, NGC 1266, is expelling molecular gas, mostly hydrogen, from its core.

Astronomers have long recognized the distinction between early-type red and dead galaxies, thought to be largely devoid of gas and dust and thus not forming stars, and galaxies that are currently forming stars from the raw material molecular hydrogen. One of the outstanding problems in astronomy is how galaxies evolve from being star-forming spirals to red and dead.

With such a rapid outflow – about 13 solar masses per year traveling at up to 400 kilometers per second – the galaxy NGC 1266 could easily shed all of its molecular gas in less than 100 million years, equivalent to about one percent the age of the Milky Way, according to the researchers.

"This is the first example of an early-type galaxy where all the molecular gas – the star-forming gas – is concentrated in the nucleus and where we have such a high-resolution picture of what's going on with the molecular gas in the core," said Leo Blitz, UC Berkeley professor of astronomy. "We see molecular gas being expelled at speeds that will allow it to escape from the galaxy and return to the intergalactic medium, and we see the reservoir of gas from which it's drawing. That tells us that if things go on at the current rate, the gas will only last another 85 million more years."

Gas expulsion from the center of the galaxy could be one of many mechanisms that help gas-rich star-forming galaxies evolve into the gas-poor red and dead galaxies littering the cosmos, he said.
While most known galactic jets are associated with intense starburst regions in galaxies, this old galaxy doesn't have enough star formation to drive an outflow, according to UC Berkeley graduate student Katherine Alatalo. A hungry central super-massive black hole could well be the energy source fueling the jets, she said.

Based on optical and radio observations, the molecular gas is concentrated in a small, dense rotating disk about 300 light years across in the core of the galaxy, instead of being evenly distributed throughout the galactic plane. The rapidly rotating disk in the nucleus confines the outflow into two jets of material that can be seen clearly in radio observations.
"The best way to force all the gas to the center is to smash two galaxies into each other, which provides a way for the gas to lose its angular momentum and fall directly into the center," Alatalo said. "But there is no evidence that NGC 1266 is undergoing any sort of interaction like that, meaning we don't know how this gas lost that momentum."

The region of rapidly swirling gas, located not far from the central black hole, is much like the rotating gas and dust disk from which individual stars form, the researchers said, but is 10 to 100 million times more massive.

"The concentration of gas in the center probably had to have happened rather quickly, yet there is no obvious mechanism for how this happened," Blitz added. "That allows for the possibility that this is just a pathological galaxy, but it may very well be the first of its kind representing a general case of early-type galaxies that have shed their gas by way of a strong central outflow."

The galaxy, catalogued as an S0 lenticular galaxy without spiral arms, is one of 263 galaxies in the ATLAS3D survey, which aims to study all early-type galaxies in a small volume of space within about 140 million light years of Earth. NGC 1266 is about 100 million light years away in the direction of the constellation Eridanus.

As galaxies age, much of the molecular gas, consisting of cold, molecular hydrogen and traces of other molecules, including carbon monoxide, gets processed into new stars. Once the molecular gas is used up, star formation ceases unless the molecular gas can be replenished. After about 10 billion years, as the big, bright stars flare out or explode, and as star-forming gas is used up, galaxies are left with primarily small, red, long-lived stars – hence the nickname "red and dead."

Based on observations over many years, astronomers have concluded that these red and dead galaxies have amazingly little molecular gas. One major question has been, "Where did it go?"

The new, more detailed survey, however, is gathering evidence that these old, early-type galaxies may have more molecular hydrogen than once thought.

"If you look at other galaxies of this type, it was thought that only exceptional cases contain star-forming molecular gas, and that only a small fraction contain any gas at all. Before our survey, it was believed that once these types of galaxies lose their gas, they become permanently red and dead," Blitz said. "Our study is showing that, while they're still red, they are not so dead, and they may be forming stars at a rate that is controlled by the molecular gas."

"NGC 1266 is an old, fairly normal looking early-type galaxy that turns out have this deep underbelly of violence going on in the very center," Alatalo said. "We are still at a loss to explain some of it."

The Deep HST and Spitzer imaging of a passively evolving galaxy identified in the Gemini Deep Deep Survey (GDDS) at top of page has led to the detection of a very compact cluster of massive red galaxies at a redshift of z =1.51. For galaxies without emission lines this redshift is beyond the reach of most spectroscopic studies, however, the ultra-deep Gemini spectroscopy of the GDDS program detected continuum emission from the source which made it possible to establish the z = 1.51 redshift of the galaxy. Assuming that the other cluster members have the same redshift makes this one of the most distant and ancient clusters discovered to date.

Subsequent HST and Spitzer imaging uncovered 12 galaxies within 170 kpc of the GDDS target proving that the newly discovered cluster is both compact and densely populated. This suggests that several of the cluster members will likely merge to form a single behemoth galaxy by the present day.

Since galaxy clusters were rare when the universe was less than half its current age, the discovery of a well-formed cluster at such a high redshift has implications for the hierarchical models that attempt to describe galaxy formation. Indeed, finding an example like this is difficult, but crucial, to understanding the growth of structure and probing the underlying issues of dark matter and dark energy.

The Daily Galaxy University of California



Forget the theories of black holes; galaxy formation via 2 colliding galaxies and Newtonian gravity. The galaxy formation can easily be explained without these theories.
- I of course agree in the theory of younger and older galaxies, and I´m not at all surprised that astrophysicists now – at long last - have observed a galaxy that emits gasses and matter out from its central area.
Quote: "The best way to force all the gas to the center is to smash two galaxies into each other, which provides a way for the gas to lose its angular momentum and fall directly into the center," Alatalo said. "But there is no evidence that NGC 1266 is undergoing any sort of interaction like that, meaning we don't know how this gas lost that momentum."
AD: This paragraph tell clearly of the scientifically problem understanding cosmos. Cosmological scientists uses foremost the insufficient Newtonian gravity ideas in order to understand a cosmic movement that only can be understood as an electric force causing electromagnetic field movements in the interstellar cloud of gas and dust.
The creational basics are:
1. Light from cosmic explosions = Electromagnetic forces (Biblically: “Let there be light”)
2. Cosmic gas and dust = all the physical elements.

The universal movements are:
1. Assembling and distributing/inwards and outwards.
2. Electric forces create large electromagnetic and thermal cosmic swirls in gas and matter in a cosmic molecular cloud. (Pre-galaxy/Young galaxy)
3. The swirling gas and matter heats up in the fast rotating cosmic swirls via the electromagnetic fields.
4. The swirling effect sorts out some elements/gasses and lumps other usable elements together. The lumping effect is created via the Bennett z-pinch and swirling effect. (Replaces the outdated Newtonian “laws of Gravity”).
5. The sorting and lumping movement in the swirls creates larger spheres of gas and matter. (Mature Galaxy)
6. Electromagnetic rays shoots out from the 2 tube holes in the galaxy because of the nuclear activity.
7. When each larger sphere of gas and matter has reached their critical point of density, they are centrifugally slung out of the swirling movement. (Old Galaxy)
8. The larger spheres of gas become stars and the larger sphere of matter becomes planets etc., all swirling out of a galaxy centre via the simple centrifugal force.

- A young galaxy shows a brighter glowing centre because of the heavy nuclear activity and the old galaxy show a lesser glowing centre because the larger lumped spheres of gas and dust have become stars and planets of all kind, slowly cooling of from the bright light colors to the more reddish color.
That is: Some galaxies are in the assembling stage and other in the distributing stage – and it is all due to the electromagnetic forces of creation and simple thermodynamic and centrifugal laws.
- Our Milky Way galaxy is in the mature/older stage of formation of “spewing out” all kind of stars; planets, moons and all other kind of matter, more or less lumped via the original processes. This really means that there is no black hole sucking everything into the Milky Way centre.
- Quite contrary everything is moving out from the Milky Way centre, even our Solar System was once created directly out from the Milky Way centre and not “via a presolar disc of gas and dust that suddenly decided to collapse” the Newtonian way that cannot explain how gas and matter can overcome the strange “laws of gravity” that also this article is talking about describing how gas and matter leaves a galaxy contradicting the laws of gravity itself.
By the way: Reading and studying the Global Creation Myths and Stories, they all tell of and confirms that our Solar System once was born from the centre of the Milky Way galaxy. So here the ancient mythology is far ahead of the modern cosmological science.
Ivar Nielsen
Natural Philosopher

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