Rare Brown Dwarf Discovered --35 Times Size of Jupiter
Rho Ophiuchi Nebula--A Source of Earth's Original Water?

Massive Black-Hole Engines --Powerful New Link Discovered to Galaxy Growth



Astronomers, using the European Space Agency's (ESA) Herschel Space Observatory, have shown that the number of stars that form during the early lives of galaxies may be influenced by the massive black holes at their hearts. This helps explain the link between the size of the central bulges of galaxies and the mass of their central black holes.

All large galaxies have a massive black hole at their centre, each millions of times the mass of a single star. For over a decade scientists have been puzzled as to why the masses of the black holes are linked to the size of the round central bulges at the hearts of galaxies. The suspicion has long been that the answer lies in the early lives of the galaxies, when the stars in the bulge were forming. To study this phase, astronomers need to look at very distant galaxies, so far away that we see them as they were billions of years ago.

Although the black holes themselves cannot be seen, the material closest to them can get incredibly hot, emitting large amounts of light over a very wide range of wavelengths, from radio waves to x-rays. The light from this super-heated material can be trillions of times as bright as the Sun, with brighter emissions indicating a more massive black hole. Ther e are also strong flows of material (winds and jets) expelled from the region around the black hole.

The hot material near the black hole outshines almost all the light from rest of the host galaxy, except for the light with wavelengths just less than a millimetre. This sub-millimetre light is invisible to normal telescopes but is seen by the Herschel Space Observatory and indicates the rate at which stars are being formed in the galaxy.

The Herschel Space Observatory has shown that galaxies with the most powerful, active, supermassive black holes at their cores produce fewer stars than galaxies with less active black holes. Supermassive black holes are believed to reside in the hearts of all large galaxies. When gas falls upon these monsters, the materials are accelerated and heated around the black hole, releasing great torrents of energy. In the process, active black holes oftentimes generate colossal jets that blast out twin streams of heated matter. Inflows of gas into a galaxy also fuel the formation of new stars. 

In a new study of distant galaxies, Herschel helped show that star formation and black hole activity increase together, but only up to a point. Astronomers think that if an active black hole flares up too much, it starts spewing radiation that prevents raw material from coalescing into new stars. 

This artistically modified image of the local galaxy Arp 220, captured by the Hubble Space Telescope, helps illustrate the Herschel results. The bright core of the galaxy, paired with an overlaid artist's impression of jets emanating from it, indicate that the central black hole's activity is intensifying. As the active black hole continues to rev up, the rate of star formation will in turn be tamped down in the galaxy. Astronomers want to further study how star formation and black hole activity are intertwined. 



"Herschel provides a new perspective and is conducting a number of surveys of galaxies near and far, in order to unravel the mysteries of the formation and evolution of galaxies across cosmic time," explains Göran Pilb'ratt, the ESA Herschel Project Scientist.

The latest study, led by Dr. Mat Page of University College London's Mullard Space Science Laboratory, used images from the SPIRE camera on board Herschel to calculate the amount of star formation in distant galaxies. This can be compared with the X-rays detected by NASA's Chandra X-ray satellite, which indicates the growth-rate of the black hole.

"Space telescopes like Herschel let us look back in time, and that's just what we need to do to find out how today's galaxies were built. Galaxies were forming stars like crazy when the Universe was young, but trying to see the light from star formation against the glare from the hot stuff around the black hole has been almost impossible until now. That's all changed with the new wavelengths opened up by Herschel's SPIRE camera" said Dr. Page.

Galaxies with massive black holes were found to have high rates of star formation, with some forming stars at a thousand times the rate of our own Milky Way galaxy today. But intriguingly, the Herschel results show that the fastest-growing black holes are in galaxies with very little star formation – once the radiation coming from close to the black hole exceeds a certain power, it tends to "switch off" star formation in its galaxy.

Prof. Seb Oliver from the University of Sussex and co-leader of the HerMES project, said "This fantastic result provides an amazing link between black holes and star formation in the early Universe. It is a huge clue to this decade old riddle and could mean that once a black hole is big enough and producing enough radiation, it somehow shuts down the formation of stars in the surrounding galaxy."

The most likely explanation is that the incredibly strong winds from around these very powerful black holes are preventing the gas and dust in the rest of the galaxy from forming stars."This means that the total number of stars that form is limited by the power of the black hole that shapes that galaxy" said Dr Myrto Symeonidis, a co-author of the study.

"This important discovery shows how the great sensitivity of SPIRE is allowing us to look back in time and understand the early history and development of the galaxies that populate today's universe," said Matt Griffin of Cardiff University, who is the Principal Investigator of the international team which built the Herschel-SPIRE instrument. 

In an earlier study this year, an international team of astronomers, led by astrophysicist Francesco Tombesi, at NASA’s Goddard Space Flight Center in Greenbelt, Maryland has discovered what causes galaxies to acquire large bulges in their centers: outflows from supermassive black holes that lie in the bulges.
Tombesi and his colleagues have encountered a distinct kind of “outflow” from the clouds of gas after studying the spectrographs of forty-two galaxies from the All-Sky Slew Survey Catalog from NASA’s Rossi X-Ray Timing Explorer Satellite.

In spectroscopy, astronomers look at absorption spectra — essentially pictures of the electromagnetic spectrum — which present light absorbed from the light sources, such as stars, nebulas, galaxies, and, in this case, black holes. With the absorption spectra, astronomers can gauge the light source’s composition of elements by looking for any black lines that vertically cross the spectrum.

While researching the spectra of x-rays from the forty-two galaxies, Tombesi and the team learned that the supermassive black holes absorbed fluorescent iron. They then found out that 40% of these galaxies had such an outflow flow, which suggests that the outflow is common in black holes at the center of galaxies. The x-rays’ wavelengths were shorter than their normal length, indicating that the galaxies were blueshifted (i.e. moving towards us). This outflow was dubbed “ultra-fast outflows,” or UFOs, by Tombesi according to NASA.

“They have the potential to play a major role in transmitting feedback effects from a black hole into the galaxy at large,” Tombesi said.

Ultimately, he and his colleauges learned that UFOs halt supermassive black holes’ growth by taking away the mass it would potentially eat. Furthermore, UFOs can slow down or even completely discontinue star formation in the galactic centers by removing gas from the galactic bulge.

The Daily Galaxy via UK Space Agency and Goddard Space Flight Center

Image credit: NASA/JPL-Caltech/R. Hurt

View Today's Hot Tech News Video from IDG -Publishers of PC World, MacWorld, and Computerworld--Top Right of Page  

To launch the video click on the Start Arrow. Our thanks for your support! It allows us to bring you the news daily about the discoveries, people and events changing our planet and our knowledge of the Universe.




When one read of this “supermassive black hole observed flaring up”, it doesn’t give any logical sense when thinking of the scientific interpretation of such a hole that supposedly sucks everything in via gravity, even light, and away forever into a singularity – that doesn´t exist besides in the minds of very speculative scientists.

Every time one reads of the term "black holes" one just has to translate this term to “formative swirls in a funnel” – then it all makes much more sense.

These cosmic formative swirls with formative funnels folding in and out, can be observed everywhere as the most universal principle of formation.

- In Norse Mythology, the creation takes place when moist and cold meets hot and dry air, just like a weather system creating a hurricane. This meeting creates a swirl with a funnel and the swirling system ionizes the system and this creates magnetic fields and lightnings in the hurricane.

The pressure in the hurricane can either suck in air and material from the bottom, or press down air for above the top or down in the funnel. It is the very same system as in the formative process in the centre of a galaxy or elsewhere where a swirling funnel is observed.

The galactic circuit takes form in a 3D cell-like spherical formation where stars and planets etc., are moved via the cosmic thermodynamically weather system, one the one hand into the funnel and further on to the centre of the galaxy. Here everything is dissolved (hence the observed flares in this article) and via nuclear processes gasses and particles are sorted out and heated up until melting point.

After this processes, larger spheres of gas and particles, (and also in all kind of mixed spheres) are on the way out from the funnel and away from the galactic centre, cooling of as coming stars and planets of all kind, slowly wandering out from the galactic centre and further out in the galactic arms.

This is the basically formative circuit processes in galaxies. Things goes inwards and outwards in this process, and this explanation can be verified by the galactic rotation anomaly as the most logical explanation of all. It is very logical that these stars and planets all are given the same orbital speed given from the same rotational momentum in the swirl.

When looking at the formative processes in galaxies as above with circuits, the need for implementing “dark matter” in galaxies and other where in cosmos is not needed. And if one imagine al movements in the Universe as this kind of circuits, the need of all kind of other black forces also is unnecessary.

It all is just a question of a change of perspective away from the linear “BB-idea” to the circular idea of eternal changes in swirling circuits.

(Qoute from http://www.dailygalaxy.com/my_weblog/2012/05/milky-way-sized-supermassive-black-hole-observed-flaring-up-.html )

Ivar Nielsen
Natural Philosopher

Well spoken truths by Ivar Neilsen. this study is nothing else but utter gibberish. Black holes are never seen nor detected, and an extremely large birkeland current of intersecting cosmic plasma filaments, will have such strong electromagnetic forces, that it prevents gas and dust to form stars in the galaxy. This study wastes time and money on nothing but phony interpretations based on age of the universe, distances and sizes of black holes. Garbage in and garbage out. Sick that they get credit for a totally worthless study, when already evidence piles in that dark matter does not exist. When will the behind kissing papers like this by gravity theory cosmologists stop? Gravity they admit they know almost NOTHING about. Yet they have the gull to interpret as facts that larger but phony black holes in the "early baby universe" don't form so many stars. Utter crp

Hammer it home, Ivar, why don't you! For more of his imaginative writings see Native- Science.net.

Verify your Comment

Previewing your Comment

This is only a preview. Your comment has not yet been posted.

Your comment could not be posted. Error type:
Your comment has been posted. Post another comment

The letters and numbers you entered did not match the image. Please try again.

As a final step before posting your comment, enter the letters and numbers you see in the image below. This prevents automated programs from posting comments.

Having trouble reading this image? View an alternate.


Post a comment

Your Information

(Name is required. Email address will not be displayed with the comment.)