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Selected readings 4/28/10

Wednesday, April 28, 2010

Interesting reading and news items.

These items are also bookmarked at my Diigo account.


Cross-discipline Effort Tracks Evolution of Human Uniqueness and Modern Behavior
A panel of scientists challenges what it is to be distinctly human and retraces the evolutionary steps that bipedal apes made to attain human traits. [Scientific American, 2/26/10]

Early Humans Used Brain Power, Innovation and Teamwork to Dominate the Planet
Scholars gathered to discuss how a unique combination of human traits helped our species survive to colonize the globe. [Scientific American, 2/27/10]

Mass of the Common Quark Finally Nailed Down
It’s not every day that scientists reduce the uncertainty in a fundamental constant of nature from 30% to 1.5%, but a team of theoretical physicists claims to have done just that. Using supercomputers and mind-bogglingly complex simulations, the researchers have calculated the masses of particles called “up quarks” and “down quarks” that make up protons and neutrons with 20 times greater precision than the previous standard. [ScienceNOW, 4/2/10]

Let’s draw Feynman diagrams!
There are few things more iconic of particle physics than Feynman diagrams. These little figures of squiggly show up prominently on particle physicists’ chalkboards alongside scribbled equations. ... The simplicity of these diagrams has a certain aesthetic appeal, though as one might imagine there are many layers of meaning behind them. The good news is that’s it’s really easy to understand the first few layers and today you will learn how to draw your own Feynman diagrams and interpret their physical meaning. [US LHC Blogs, 2/14/10]

More Feynman Diagrams
We could draw lines with arrows or wiggly lines and we were only permitted to join them using intersections (vertices) of the above form. These are the rules of the game. We then said that the arrowed lines are electrons (if the arrow goes from left to right) and positrons (if the arrow points in the opposite direction) while the wiggly lines are photons. The choice of rules is what we call a “model of particle interactions,” and in particular we developed what is called quantum electrodynamics, which is physics-talk for “the theory of electrons and photons.” [US LHC Blogs, 3/7/10]

QED + μ: introducing the muon
By now we’ve already familiarized ourselves with quantum electrodynamics (QED): the theory of electrons, positrons, and photons. Now we’re going to start adding on pieces to build up the Standard Model. We’ll start with the muon. [US LHC Blogs, 4/4/10]

Free will is an illusion, biologist says
When biologist Anthony Cashmore claims that the concept of free will is an illusion, he's not breaking any new ground. At least as far back as the ancient Greeks, people have wondered how humans seem to have the ability to make their own personal decisions in a manner lacking any causal component other than their desire to "will" something. But Cashmore, Professor of Biology at the University of Pennsylvania, says that many biologists today still cling to the idea of free will, and reject the idea that we are simply conscious machines, completely controlled by a combination of our chemistry and external environmental forces. [Physorg.com, 3/3/10]

Did the discovery of cooking make us human?
Cooking is something we all take for granted but a new theory suggests that if we had not learned to cook food, not only would we still look like chimps but, like them, we would also be compelled to spend most of the day chewing. [BBC News, 3/2/10]

Depression’s Upside
The mystery of depression is not that it exists — the mind, like the flesh, is prone to malfunction. Instead, the paradox of depression has long been its prevalence. While most mental illnesses are extremely rare — schizophrenia, for example, is seen in less than 1 percent of the population — depression is everywhere, as inescapable as the common cold. [New York Times, 2/25/10]

Human Culture, an Evolutionary Force
As with any other species, human populations are shaped by the usual forces of natural selection, like famine, disease or climate. A new force is now coming into focus. It is one with a surprising implication — that for the last 20,000 years or so, people have inadvertently been shaping their own evolution. [New York Times, 3/1/10]

Hogan’s noise
Cosmologist Craig Hogan, in contrast, has become enamored of a noise he claims is generated by something even tinier — a minuscule graininess in the otherwise smooth structure of spacetime. Call it Hogan’s noise. Many physicists are skeptical, but if his hunch about the existence of this subatomic clatter proves correct, it could have a mind-boggling implication: that the entire universe is nothing more than a giant hologram. [Science News, 3/13/10]

Hot tip: Target inflammation to ease obesity ills
What if you could be fat but avoid heart disease or diabetes? Scientists trying to break the fat-and-disease link increasingly say inflammation is the key. In the quest to prove it, a major study is under way testing whether an anti-inflammatory drug - an old, cheap cousin of aspirin - can fight the Type 2 diabetes spurred by obesity. And intriguing new research illustrates how those yellow globs of fat lurking under the skin are more than a storage site for extra calories. They're a toxic neighborhood where inflammation appears to be born. [Physorg.com, 3/1/10]

Protein folding: The dark side of proteins
Almost every human protein has segments that can form amyloids, the sticky aggregates known for their role in disease. Yet cells have evolved some elaborate defences. [Nature News, 4/7/10]

'Life as we don't know it' in the universe? Start with Titan.
From the dun plains of Meridiani on Mars to the "cool Jupiter" exoplanet CoRoT-9b circling a distant star in the constellation Serpens, scientists have put a premium on finding worlds that have the potential for liquid water, which enables life on Earth. But in Titan, scientists have found a world that, some suggest, could point to an exception to the rule. Might life exist without liquid water? Increasingly, Titan is becoming the focus of a movement to consider the possible existence of "life as we don't know it." [CSMonitor.com, 4/11/10]

Mirror Neurons - The unfalsifiable theory
I recently had the pleasure of giving a lecture on mirror neurons at UC San Diego which is a very active locale for folks working on the human mirror system. I expected a lot of push-back on my critical views of mirror neurons, and I wasn't disappointed. [Talking Brains, 3/19/10]

Explained: Radiative forcing
When people talk about global warming or the greenhouse effect, the main underlying scientific concept that describes the process is radiative forcing. [Physorg.com, 3/10/10]

Explained: Climate sensitivity
Climate sensitivity is the term used by the Intergovernmental Panel on Climate Change (IPCC) to express the relationship between the human-caused emissions that add to the Earth's greenhouse effect -- carbon dioxide and a variety of other greenhouse gases -- and the temperature changes that will result from these emissions. [Physorg.com, 3/19/10]

Did Society Do It?
Language seems unlikely to have started as the solution to any one problem. Evolution can handle any single task with a more focused adaptation. There seems no reason to doubt that early Homo did use proto-speech for referring to absent things and for recruiting, but there also seems no reason to suppose it was limited to that role. [Babel's Dawn, 4/11/10]

How robots think: an introduction
In the 1960's, researchers in artificial intelligence were boldly declaring that we'd have thinking machines fully equivalent to humans in 10 years. Instead, for most of the past half-century, the only robots we saw outside of movies and labs were arms confined to factory floors and were remotely operated by humans. Building machines that behaved intelligently in the real world was harder than anyone imagined. [Nobel Intent, 3/15/10]

Hunt for the sterile neutrino heats up
Neutrinos like to keep to themselves. These ghostly particles are so reluctant to interact with ordinary matter that billions zip harmlessly through each person every day, and it takes giant, specialized detectors to capture even a handful of them. Now astronomers are finding hints of an even more elusive type of neutrino, one so shy that it could never be detected directly: the sterile neutrino. [Nature News, 3/17/10]

Explained: Regression analysis
Regression analysis. It sounds like a part of Freudian psychology. In reality, a regression is a seemingly ubiquitous statistical tool appearing in legions of scientific papers, and regression analysis is a method of measuring the link between two or more phenomena. [Physorg.com, 3/16/10]

A Skeptic Questions Cancer Genome Projects
Vogelstein summed up by saying that cancer has gone from "a complete black box" to something that "we really kind of understand." The "sobering" part, he said, is that he doesn't expect there will be many new genes or genetic breakthroughs. He has pinned his own hopes for preventing cancer deaths on using genetics to diagnose cancers early, when they're more treatable. [ScienceInsider, 4/23/10]

Bigger, Better Space Telescopes Following In Hubble's Footsteps
Hubble Space Telescope huggers are celebrating the iconic observatory's 20th birthday, even as scientists anticipate the next generation of bigger and more powerful successors to the famed orbital instrument. [Space.com, 4/23/10]

What Is Mathematics For? [PDF]
What mathematics education is for is not for jobs. It is to teach the race to reason. It does not, heaven knows, always succeed, but it is the best method that we have. It is not the only road to the goal, but there is none better. [Notices of the AMS, 4/27/10]

When multi-tasking, each half of the brain focuses on different goals
The part of our brain that controls out motivation to pursue our goals can divide its attention between two tasks. The left half devotes itself to one task and the right half to the other. This division of labour allows us to multi-task, but it also puts an upper limit on our abilities. [Not Exactly Rocket Science, 4/15/10]

To sleep, perchance to dream, perchance to remember
The last decade of research has clearly shown that sleep is one of the best aide memoires that we have. During this nightly time-out, our brain can rehearse information that it has picked up during the day and consolidate them into lasting memories. Wamsley’s new study supports that idea but it also shows that dreaming while you nap can strengthen our memories even further. [Not Exactly Rocket Science, 4/22/10]

The Utrecht Paradigm
There is something wrong here. If you began stopping people on the street and asked them if they thought it likely that language depends on a mixture of biological adaptations and cultural innovations, wouldn’t the first 999 out of 1000 answer yes? So what kind of knot can language scholars have tied themselves into for the news out of Utrecht to be that they too would answer yes? But that’s the case, although it looks temporary and unsustainable. [Babel's Dawn, 4/25/10]


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Active galaxies and supermassive black hole jets

Sunday, April 25, 2010

Most galaxies have a supermassive black hole in their center – sometimes even more than one. These black holes can have masses up to ten billion solar masses (1010 M) or more. One of the largest known examples is part of a binary system, and it weighs in at 1.8×1010 M – see here, here, or here. (There are exceptions, such as the nearby M33, which apparently does not have a central black hole of mass more than 3000 M.)

All black holes gravitationally attract any nearby matter, because of their high mass, which is generally ≥ 1 M even for comparatively tiny stellar mass black holes. Such matter does not necessarily fall directly into the black hole, but instead can go into orbit around the black hole. If there is enough matter close to the black hole, and if it is pulled in rapidly enough, the results can be a spectacular light show, such as one might see (if one could see simultaneously at all wavelengths from very high radio frequencies to X-rays) in the Centaurus A galaxy, about 13 million light years away:



This is a view of the whole galaxy – you can see that the central area, which contains the black hole, is unusually bright, and there are jets extending more than the radius of the galaxy itself in both directions perpendicular to the galactic plane. Centaurus A is an example of an "active galaxy", and it shows the impressive effects produced by the central black hole of such an object. (For more about Centaurus A and this image, see here, here. Another image: here.)

The innermost region of an active galaxy, which is the interesting part, is called an "active galactic nucleus" (AGN). This is a general term for a number of puzzling astronomical objects that were noticed at first on account of their unusually vigorous output of energy, but whose similarities were not immediately recognized. AGNs were eventually deduced to be (in almost all cases) just relatively ordinary galaxies with massive central black holes that appear to be responsible for liberating at least as much energy as all the stars in the remainder of the galaxy.

Although most galaxies seem to have a supermassive black hole in their center, behavior of AGNs is rather unusual, and AGNs are somewhat rare in the nearby universe, but more common at large distances – hence at an earlier time in the universe. AGN behavior requires not only a supermassive black hole, but also a substantial amount of surrounding interstellar gas that fuels their energy output. AGNs are rather profligate in using their fuel, so presumably most of the available interstellar gas close to a central black hole is consumed over a relatively short period of time (compared to the age of the universe). Consequently, in most nearby galaxies the fuel was used up long ago.

The Milky Way has a relatively small central black hole associated with the radio source named Sagittarius A* (Sgr A*). The black hole has a mass of ~4×106 M. Sgr A* is not nearly luminous enough to be considered an AGN, so evidently either there is not now enough nearby interstellar gas, or perhaps the black hole is just too small to have ever attracted enough.

How luminous does a galactic nucleus need to be in order to qualify as an AGN? It's really a question of how bright the nucleus is compared to the rest of the galaxy. Messier 77, also known as NGC 1068, is the first galaxy now considered to have an AGN that came to special attention. In 1908 E. A. Fath obtained its spectrum and found it had unusually strong emission lines. (This was at a time when it was still assumed that nebulae were simply fuzzy objects inside our own galaxy.) V. N. Slipher later obtained a better spectrum and noted that the width of the lines implied high velocities – hundreds of kilometers per second. NGC 1068 is fairly nearby – 47 million light years away – and rather large, with a diameter of 170,000 light years (compared to the Milky Way's diameter of 100,000 light years). NGC 1068 is still under active study at this time – see here.

Finally in 1943 Carl Seyfert recognized that NGC 1068 was similar to a number of other galaxies that formed a distinct class, based on the nature of their spectra and because their innermost regions were as bright as the entire rest of the galaxy. This concentration of luminosity in the center was not only exceptional, but it was quite unlikely to be physically possible for a sufficient number of stars to be located in such a small volume of space. Naturally, galaxies of this sort became known as Seyfert galaxies.

Other peculiarities of Seyfert galaxies were eventually recognized as well. For example, their spectra contain broad, strong emission lines of hydrogen, helium, nitrogen, and oxygen. This in turn implied that the emitting material had to be in rapid motion in order to produce Doppler broadening of the emission lines. And this in turn implied that a large amount of mass needed to be concentrated in a small volume to account for such high velocities. The characteristics of high central luminosity and broad emission lines tended to occur together enough to justify recognizing Seyfert galaxies as a distinct class, which made up about 1% of nearby spiral galaxies.

About 15 years after Seyfert galaxies were discovered, another peculiar type of astrophysical object was noticed – quasars, or, as they were sometimes known, "quasi-stellar-objects". These came first to attention as strong sources of radio emission, in early radio telescope surveys, such as the original Third Cambridge Catalogue of Radio Sources. The strong radio signal was somewhat mysterious, since electromagnetic radiation at radio frequencies (up to 100 GHz at the high end) is normally emitted only by rather cold matter (under about 2 degrees above absolute zero).

Many of these sources ("radio galaxies") were eventually identified with optically visible objects, many of which had already been cataloged as unremarkable stars. But when they came under attention as radio sources and their optical spectra were obtained, their high redshift implied that they needed to have an astonishingly high intrinsic luminosity – too luminous to be explainable simply as very large galaxies containing even the brightest possible stars.

Phenomena that are seemingly impossible to explain in terms of familiar examples tend to draw a lot of attention – and this is true, in some respects, of quasars even today. A lot of the mystery is now explainable in terms of active galaxies that are powered by supermassive black holes, and we'll get more into that in a little bit. But there are also some AGN features, such as the jets that a few AGNs expel at relativistic velocities, which are still not well understood.

Although there was still controversy at the time whether redshift could be used as a reliable gauge of distance, if the conventional redshift interpretation (Hubble expansion) was assumed, then quasars would need to be (what was considered at the time, ca. 1960) extremely distant. One of the earliest-recognized quasars, 3C 273, which is the quasar with the largest apparent magnitude and is visible through amateur telescopes, has z=0.158, corresponding to an optical distance of ~2.4 billion light years. 3C 273 was therefore intrinsically far brighter than any star, about 100 times as bright as an entire spiral galaxy. 3C 273 is sometimes considered to be the nearest unambiguous quasar. So bright quasars are absent from the local universe, although there are ambiguous cases as close as ~800 million light years (z=0.06).

It's now pretty clear that all quasars are extremely luminous active galaxies, but when 3C 273 and similar objects were first discovered they were point-like objects without the visible appearance of a galaxy. After all, the rest of the galaxy of which they were a part was only 1/100 as bright as the nucleus. So the objects were referred to as "quasi-stellar objects" (QSOs), or quasars for short. (Sometimes the term QSO was reserved for the minority of such objects that did not have appreciable radio emissions, while "quasar" meant a QSO with a strong radio signal.)

It's also clear now that the distinction between Seyfert galaxies and quasars is rather arbitrary – the brightest Seyferts have characteristics much like the least bright quasars. Further, there are a small number of characteristics which may or may not be present in either class. Some of the "optional" features that may be present include X-ray emissions, narrow (optical or ultraviolet) emission lines in the spectrum, broad (optical or ultraviolet) emission lines, strong radio emissions, and evidence of relativistic jets of matter (such as seen in Centaurus A, above).

The last two of these features – radio emissions and jets – almost always are either present or absent together. Naturally, the jets are expected to account for the radio emissions, and there are very reasonable models that explain the connection. However, only about 10% of all AGNs, when Seyfert galaxies are included, have the jets and strong radio emissions, so whatever physical process is responsible for AGN behavior doesn't automatically produce relativistic jets as well.

Indeed, the actual physical process responsible for jets is not well understood, and it's one of the more mysterious phenomena in astrophysics. The research to be discussed here is a contribution towards elucidation of the mystery.

Physical models

But first, let's quickly review the physical model that now has consensus support to account for AGNs in general. The main characteristic, which was at first the most puzzling, is the enormous quantity of energy emitted in a very small volume of space. How small a volume? One indication is that the energy output can vary over periods of just a few days. Consequently, the diameter of the source must be only a few light days – about 10 times the diameter of Pluto's orbit. And yet the source may produce energy ranging from 1 to 100 times as much as an entire good-size galaxy containing hundreds of billions of stars. A little breath-taking, when you think about it.

So where does all this energy comes from? It's not thermonuclear energy that's produced by fusion the way that stars do. The material around even the largest black hole is not dense enough. That's basically because of what's known as the Eddington limit. Any time a sufficiently large mass of gas is collapsing under the force of gravity, the potential energy of the gas is converted to electromagnetic radiation. The energy released as radiation increases to the point where the outward radiation pressure equals the pressure due to gravity, stopping the collapse. This is what prevents very large stars – more than about 100 M – forming out of a large mass of gas. The same process also limits the rate at which gas can collapse around a black hole.

However, in the case of a supermassive black hole it is exactly this conversion of potential energy into radiation that supplies the enormous output of energy found in AGNs. Let's look at a simple calculation to show just how effectively a very large compact gravitating object can release energy.

Consider a supermassive black hole whose mass MBH is 109 M. Since M=1.99×1030 kg, we have MBH=1.99×1039 kg. The black hole is surrounded by an event horizon – the boundary from the inside of which neither matter nor radiation can escape. In the simple case of a non-rotating black hole the event horizon is a sphere whose radius is the Schwarzschild radius, which is rs=2GMBH/c2, where G=6.67×10-11 m3 kg-1 sec-2 is the gravitational constant and c=3×108 m/sec is the speed of light. Plugging things into the formula gives rs=2.96×1012 m. That's very close to the radius of the orbit of Uranus.

Next let's ask how fast an object or particle in orbit around a supermassive black hole might be moving. There is a very simple formula for orbital velocity: v≅(GM/r)½, where M is the mass of the central object, and r is the radius of the orbit. That's an approximation, since it makes some assumptions – the orbit is nearly circular, and the mass of the orbiting object is much less than M – reasonable for the sake of discussion. Squaring both sides and rearranging: r=GM/v2. We could plug in various values and see what we get, but suppose we want to know r in some reasonable units, such as the black hole Schwarzschild radius rs=2GMBH/c2. Then using plausible values for v, say v=c/10. That's "small" enough that relativistic effects are minor: the Lorentz factor γ=(1-(v/c)2)≅1.005. The result is that r/rs=100GMBH/2GMBH=50.

So an object or particle in orbit around a black hole at a distance of 50 rs is moving at 1/10th of the speed of light. Notice that this isn't dependent on the black hole's mass – it's true for any black hole. (It doesn't apply to objects that aren't black holes, since their Schwarzschild radius is very small, much smaller than the size of the object.) This calculation isn't necessarily realistic physically, since it neglects a number of other considerations, for example gas viscosity and turbulence. But it shows that black holes are nothing to be trifled with – they can have rather sizable physical effects.

In fact, although c/10 is not quite a relativistic velocity, it's still rather sprightly. For instance, at that rate one could get from the Sun to the Earth in an hour and 23 minutes – faster than the commute into a big city in bad traffic. It's also a velocity that gives even something as small as a proton quite a bit of kinetic energy. Let's compute it. The proton mass mp≅1.67×10-27 kg. Kinetic energy E=mv2/2 = (1.67×10-27)(3×108/10)2/2 ≅ 7.5×10-13 kg m2 sec-2 = 7.5×10-6 ergs. Since one erg is 6.2415×1011 eV (electron volts), the kinetic energy of a proton moving at 1/10th the speed of light is about 4.68×106 eV = 4.68 MeV.

That's not chicken feed – it's well within the gamma ray range (100 keV to several 10s of GeV). What this means is that in any collision between protons moving this fast, it's no sweat at all to give off gamma-ray photons, or photons of any other form of electromagnetic energy. And this is how black holes of any size, from stellar mass up to the supermassive kind, can convert a substantial fraction of the mass-energy of matter that falls in sufficiently close to electromagnetic radiation.

Given all this, the questions that occupy astrophysicists interested in supermassive black holes, AGNs, quasars, and the like include: What's the exact physical configuration in which the energy is released? What processes bring about the energy release? How do these physical details explain observable effects, such as total energy output, emission lines, relativistic jets, and so forth?

Astrophysicists have been working on these questions for at least 50 years, since the first quasars were discovers, and a consensus has emerged about many of the physical details.

The main feature that all AGNs have (at least in the standard model) is a substantial accretion disk of matter orbiting around them. In many cases that have been studied in detail, there's a lot of evidence for such disks, besides the powerful emission of electromagnetic energy at frequencies from far infrared to far ultraviolet. As the name implies, the disks are flat and relatively thin. The inner and outer radii of the disks vary from case to case, but since there are minor fluctuations of output over periods of days, the inner radius must be on the order of at most a few light-days, around 1014 m, or 1000 times the size of the Earth's orbit.

Detailed analysis of the physics indicates that the innermost part of the disk should be the hottest, with the temperature gradually tapering off toward the outside. Since the emission is thermal ("black body"), the relation between temperature and wavelength is given by Wien's law: T=b/λmax, where b≅2.9×10-3 m-K. λmax is the wavelength at which intensity per unit wavelength is maximized. Thus peak temperatures may range from 300,000 K when λmax=10-8 m (ultraviolet) down to 300K when λmax=10-5 m (infrared) – possibly even more at the high end. Higher energies and temperatures actually occur with stellar mass black holes instead of the much larger supermassive ones, because the maximum rate at which matter can accrete (the Eddington limit) is higher for smaller black holes.

As explained above, the energy to heat disk material to such temperatures comes ultimately from gravitational potential energy as matter falls inward and gains kinetic energy, which manifests as heat and ultimately electromagnetic radiation. The efficiency of this conversion of matter into EM energy can actually reach about 10%, which is a lot higher than nuclear fusion, for which the efficiency is only about 0.7%.

The net result is that a certain fraction of matter (mostly diffuse hydrogen and helium gas) in the vicinity of a black hole is converted to electromagnetic energy. This process can go on for a long time (perhaps hundreds of millions of years) until the matter is mostly used up or falls into the black hole itself. Calculations have verified that this process is entirely adequate to account for the observed luminosity of AGNs.

Eventually there is not enough matter sufficiently close to the black hole to be sucked in, and the process stops. This is why most quasars are observed only at great distances – more than a billion light years – because they no longer have the means to sustain the extremely high luminosity. It could be that all or most galaxies go through a quasar/Seyfert/AGN phase. One can even make a rough estimate of how long this phase lasts. Only about 1% of galaxies are Seyfert/AGN, so any given galaxy ought to be in that phase for only about 1% of the age of the universe, i. e. perhaps 130 million years.

As noted above, there are various prominent characteristics that may or may not accompany the high luminosity of an AGN, including broad and narrow emission lines in the spectrum, strong radio emissions, and relativistic jets.

The broad emission lines are thought to originate in clouds of colder gas (under ~100 K) orbiting outside the accretion disk. Although such clouds emit little EM energy, they consist of atomic hydrogen, helium, and traces of heavier elements. Intense radiation coming from the disk will put these atoms in an energetically excited state. But when electrons drop back from higher energy levels, spectral lines at frequencies characteristic of each atomic species are emitted. Because the clouds are in rapid motion, the emission lines are broadened due to varying amounts of Doppler shifting of the spectral lines.

One would expect that such clouds should be present around all supermassive black holes. However, there are many AGNs, both quasars and Seyfert galaxies, in which broad emission lines are not observed. Seyferts were originally placed into one of two classes, according as broad lines were either present or absent. But now intermediate cases are known with only weaker broad lines, so intermediate types are recognized according to the prominence of broad line features.

The thinking now is that there is no actual difference between AGNs with and without broad lines. Instead, the full or partial absence of broad emission lines is ascribed to the degree by which the broad-line clouds are hidden within a thicker torus-shaped ring of even colder gas and dust that surrounds both the accretion disk and the inner clouds. Because of the thick toroidal shape, if our line of sight to the object is mostly face-on, the inner disk and the clouds will be visible. But if we see the object mostly edge-on, those features will be partially or fully hidden.

Narrow emission lines are seen in the spectra of most AGNs. The fact that the lines are narrower indicates that the gas they come from is not moving as rapidly as the gas responsible for broad lines. The type of lines and other evidence indicates that the source of the narrow line emissions is a large but diffuse corona of very hot, ionized gas, which can extend for many light years, surrounding all other parts of the AGN. In AGN that are close enough, the corona is large enough that its actual size can be measured directly. Much of the emissions from the corona is at far ultraviolet and X-ray wavelengths, showing that temperatures in the corona must be quite high.

Approximately 10% of AGNs, both Seyfert galaxies and quasars, are "radio loud" – that is, a source of strong radio frequency emissions. In fact, it was strong radio emissions from the first quasars to be recognized that sharply distinguished them from the normal stars they appeared to be at visible wavelengths. Now that many quasars can be recognized by the high redshift of their spectra – indicating very distant and hence very luminous sources – it turns out that only about 10% of quasars are radio loud.

Long baseline radio interferometry makes it possible to "see" the source of the radio emissions in some detail. The source is not spherically symmetrical, but instead takes the form of very long, narrow "jets", as seen in Centaurus A. Such jets can be hundreds of thousands of light years long. The evidence is that these jets consist of plasmas in which electrons near the central black hole can have relativistic velocities – with Lorentz factors of 104 or more. Electromagnetic emissions from jets often run all the way from radio up to X-rays.

The only plausible physical model for the jets requires very strong magnetic fields. These fields collimate the matter into narrow jets – which emanate in opposite directions from the central black hole – and accelerate the plasma's charged particles to extreme velocities. Relativistic electrons moving in a helical pattern around the jet axes are responsible for the radio emissions via synchrotron radiation.

Many of the details presented so far are based largely on theoretical models, even though astronomers have known of AGNs for over 50 years. Observational studies of active galaxies – quasars in particular – are difficult, since most of the objects are quite distant, and much of the action occurs in a volume of only ~100 cubic light years – impossible to resolve with existing technology. But observational evidence for some of the details is slowly accumulating. The research we're now ready to discuss is an example.


The Hard X-Ray View of Reflection, Absorption, and the Disk-Jet Connection in the Radio-Loud AGN 3C 33

We present results from Suzaku and Swift observations of the nearby radio galaxy 3C 33, and investigate the nature of absorption, reflection, and jet production in this source. We model the 0.5-100 keV nuclear continuum with a power law that is transmitted either through one or more layers of pc-scale neutral material, or through a modestly ionized pc-scale obscurer. The standard signatures of reflection from a neutral accretion disk are absent in 3C 33: there is no evidence of a relativistically blurred Fe Kα emission line, and no Compton reflection hump above 10 keV. We find the upper limit to the neutral reflection fraction is R < 0.41 for an e-folding energy of 1 GeV. We observe a narrow, neutral Fe Kα line, which is likely to originate at least 2000 Rs from the black hole. We show that the weakness of reflection features in 3C 33 is consistent with two interpretations: either the inner accretion flow is highly ionized, or the black-hole spin configuration is retrograde with respect to the accreting material.

3C 33 (which means it is object number 33 in the Third Cambridge Catalogue of Radio Sources) has a redshift z=0.0597, which equates to a distance of about 800 million light years. 3C 33 is one of the brightest narrow-line radio galaxies (NLRGs). An NLRG is a radio-loud AGN in which the spectrum contains narrow width emission lines but there is little or no evidence of broadened spectral lines.

At visible and infrared wavelengths 3C 33 is nothing special to look at, but radio images show structures typical of radio galaxies, with pronounced lobes on both sides of the central object. (See here and here for images at various wavelengths.)

For an explanation of why 3C 33 is an interesting object of study, we need to go into a little more detail about what makes up the "hard" X-ray part of the spectrum of an AGN. This involves photons having energies from 1 keV to 120 keV.

The temperature of the plasma that makes up the corona is much higher than the temperature of the gas in the accretion disk, which is mostly un-ionized. Even the hottest parts of the accretion disk have their intensity peaks in the ultraviolet, with wavelengths of at most 10 nm, which implies temperatures of about 300,000 K by Wien's law. Hard X-rays with 12 keV photons are two orders of magnitude smaller in wavelength, implying temperatures around 30 million K. Quite a difference. So it's not unreasonable to regard the gas in the accretion disk as "cold" – compared to the gas of the corona.

It's somewhat messy to describe what happens with very energetic radiation from the corona interacting with the less energetic radiation from the hottest (innermost) parts of the accretion disk. However, various simulation studies have investigated models where a hard X-ray spectrum is "reflected" from an opaque slab of relatively "cold" gas that mostly emits in the ultraviolet. High-energy photons can reflect off of lower energy electrons in the process of Compton scattering. The high-energy photons lose some of their energy in the process, while the lower-energy particles gain energy. The reverse can also happen: low-energy photons from the accretion disk can scatter off higher energy electrons and photons in the corona. In this process (inverse Compton scattering) the lower-energy photons gain energy.

The starting assumption is that the X-ray spectrum of the corona is approximated by a power law in which the distribution of number of photons of given energy is a power -α (with α>0) of the energy, i. e. N(E) ∝ E. Models with typical assumptions about the configuration of the accretion disk suggest that there should be a slight enhancement of number of photons at energies above 10 keV in the corona X-ray spectrum. This enhancement is referred to as the "Compton reflection bump".

The observational evidence is that this Compton bump is usually found in the X-ray spectra of radio-quiet AGNs. But radio-loud AGNs tend not to have this feature in the X-ray spectra, or have it only weakly. This suggests that there may be something different about the accretion disks of radio-loud AGNs – that is, AGN that also have a jet structure responsible for their radio emissions.

There is one other common feature in AGN X-ray spectra – an emission line from fluorescing iron (Fe) atoms around 6.4 keV. This is called the Fe Kα line. It is normally observed to be relativistically broadened, indicating that it arises from accretion disk reflection. Again, the Fe Kα line is commonly found in radio-quiet AGNs and not in radio-loud AGNs. This is a further indication of something different about the accretion disks of radio-loud AGNs.

3C 33 is a radio-loud AGN, so it's a good candidate for closer investigation. However, there's an additional complication in all this in the radio-loud case. The jets radiate over the full EM spectrum, not just at radio frequencies. In particular, there's an X-ray component to the spectrum, and it's especially strong at the base of the jets. If this part of the jets adds its contribution to the X-ray spectrum the shape of the spectrum will be changed so that the Compton bump (if any) is harder to distinguish.

As it happens, most of the radio galaxies previously studied have been of the broad line sort. Recall that this means we are seeing the galaxy more or less along the axis of the jet, so that the base of the jet and the surrounding accretion disk are not obscured by the outer torus of cold gas and dust. 3C 33, however, is a narrow line radio galaxy (NLRG). That means that the common axis of the jets and the accretion disk is at a large angle (more than ~60°) to our line of sight. Consequently we can't see the accretion disk or the base of the jets directly, due to the obscuring dust, and so broad emission lines aren't visible.

That's actually good, because it means unobscured X-ray emissions from the jets are relatively minor and would not make it difficult to detect a Compton bump and Fe Kα lines – if they were present. If there were a Compton bump, it would be due to photons reflected from the accretion disk and scattered to higher energies in the corona. Since the corona may be hundreds of light years in radius, it is not obscured.

Nevertheless, what this research has shown is that a Compton bump and significant Fe Kα fluorescence are not present in 3C 33. Therefore there's probably something different from the norm of AGNs about the accretion disk of 3C 33. And the most natural assumption is that difference is related to the jets.

What could the difference be? Another research team that has considered the issue of lack of Compton bump in radio-loud AGNs hypothesized that the hottest inner part of the accretion disk could be partially ionized. Therefore it would be semitransparent and not reflect photons strongly. Calculations showed that this was a viable hypothesis.

The team responsible for the present research has a different hypothesis: the strong magnetic fields that create the jets also force the inner part of the accretion disk farther away from the black hole – provided that the black hole itself is spinning in the opposite direction ("retrograde") from the accretion disk. So the research team suggests that the lack of Compton bump is possible evidence for opposing spins of black hole and accretion disk.

Even without effects due to the magnetic field, a retrograde spin of the black hole would cause the radius of the smallest stable circular orbit outside the black hole to be larger than in the prograde case. In other words, the material that would otherwise orbit closer to the black hole isn't there since it has to fall into the black hole. Since magnetic field lines cannot be anchored in a black hole, they must be attached to the accretion disk, and thus assume a different shape than they would if disk and black hole were spinning in the same direction.

At this point, there is no direct evidence for retrograde spin. The competing hypothesis of a semitransparent inner accretion disk isn't ruled out. Further study will be required to distinguish between the two hypotheses.



ResearchBlogging.org
Evans, D., Reeves, J., Hardcastle, M., Kraft, R., Lee, J., & Virani, S. (2010). THE HARD X-RAY VIEW OF REFLECTION, ABSORPTION, AND THE DISK-JET CONNECTION IN THE RADIO-LOUD AGN 3C 33 The Astrophysical Journal, 710 (1), 859-868 DOI: 10.1088/0004-637X/710/1/859





Further reading:

Black hole spin may create jets that control galaxy (2/11/10)

Backward Black Holes Control Fate of Galaxies (2/12/10)

The Hard X-Ray View of Reflection, Absorption, and the Disk-Jet Connection in the Radio-Loud AGN 3C 33 – arXiv copy of research paper


Related articles:

Winds of Change: How Black Holes May Shape Galaxies (4/19/10)

Galactic black holes may be more massive than thought (6/8/09)

Black hole outflows from Centaurus A (2/6/09)

Evidence that quasars are powered by black holes (10/21/06)

The wind from a black hole (7/8/06)


Other resources

Black Hole Models for Active Galactic Nuclei – excellent technical introduction by Martin Rees

3CRR Atlas Home Page

NASA/IPAC Extragalactic Databse: NED

Orion's Dreamy Stars

Monday, April 19, 2010

Orion's Dreamy Stars (4/1/10)
A colony of hot, young stars is stirring up the cosmic scene in this new picture from NASA's Spitzer Space Telescope. The image shows the Orion nebula, a happening place where stars are born. The young stars dip and peak in brightness due to a variety of reasons. Shifting cold and hot spots on the stars' surfaces cause brightness levels to change, in addition to surrounding disks of lumpy planet-forming material, which can obstruct starlight. Spitzer is keeping tabs on the young stars, providing data on their changing ways.

The hottest stars in the region, called the Trapezium cluster, are bright spots at center right. Radiation and winds from those stars has sculpted and blown away surrounding dust. The densest parts of the cloud appear dark at center left.




Orion Nebula – click for 1000×427 image


More: here, here

Winds of Change: How Black Holes May Shape Galaxies

Winds of Change: How Black Holes May Shape Galaxies (3/3/10)
This is a composite image of NGC 1068, one of the nearest and brightest galaxies containing a rapidly growing supermassive black hole. X-ray data from the Chandra X-ray Observatory are shown in red, optical data from the Hubble Space Telescope in green and radio data from the Very Large Array in blue. The spiral structure of NGC 1068 is shown by the X-ray and optical data, and a jet powered by the central supermassive black hole is shown by the radio data.

The X-ray images and spectra obtained using Chandra's High Energy Transmission Grating Spectrometer show that a strong wind is being driven away from the center of NGC 1068 at a rate of about a million miles per hour. This wind is likely generated as surrounding gas is accelerated and heated as it swirls toward the black hole. A portion of the gas is pulled into the black hole, but some of it is blown away. High energy X-rays produced by the gas near the black hole heat the ouflowing gas, causing it to glow at lower X-ray energies.




NGC 1068 – click for 821×854 image

Hubble snaps heavyweight of the Leo Triplet

Sunday, April 11, 2010

Hubble snaps heavyweight of the Leo Triplet (4/8/10)
Hubble has snapped a spectacular view of the largest "player" in the Leo Triplet, a galaxy with an unusual anatomy: it displays asymmetric spiral arms and an apparently displaced core. The peculiar anatomy is most likely caused by the gravitational pull of the other two members of the trio.

The unusual spiral galaxy, Messier 66, is located at a distance of about 35 million light-years in the constellation of Leo. Together with Messier 65 and NGC 3628, Messier 66 is one third of the Leo Triplet, a trio of interacting spiral galaxies, part of the larger Messier 66 group. Messier 66 wins out in size over its fellow triplets — it is about 100 000 light-years across.

Messier 66 is the proud owner of exclusive asymmetric spiral arms which seem to climb above the galaxy's main disc and an apparently displaced nucleus. This asymmetry is unusual; most often, dense waves of gas, dust and newly born stars wind about the galaxy's centre in a symmetric way. Astronomers believe that Messier 66's once orderly shape has most likely been distorted by the gravitational pull of its two neighbours.




M 66 – click for 1280×886 image


More: here, here, here

Selected readings 4/3/10

Saturday, April 3, 2010

Interesting reading and news items.

These items are also bookmarked at my Diigo account.


Out There: A Strange Zoo of Other Worlds
More than 400 worlds have been found beyond the reach of our sun, and the tally is rising rapidly. From super-Earths to giants dwarfing Jupiter, our galaxy is a zoo of different kinds of planets. [Space.com, 2/14/10]

Detecting Our Martian Cousins
The iguanas of the Galapagos Islands have evolved many unique characteristics due to their isolation from mainland iguanas. Because they can't swim long distances, biologists believe that the first Galapagos iguanas arrived on natural rafts made from vegetation. The same thing may have happened across the ocean of space. Some researchers speculate that life on Mars - if there is any - may be composed of "island species" that were carried away from Earth on interplanetary meteorites. [Physorg.com, 2/15/10]

The rhythm of our star
When we look at the Sun we cannot penetrate beyond its outer surface, the photosphere, which emits the photons that make up the radiation we can see. So how can we find out what is inside it? [Physorg.com, 2/15/10]

‘X-woman’ challenges out-of-Africa theory
DNA from a female of previously unknown hominid – dubbed the X-woman – lived in southern Siberia some 40,000 years ago and could be a new branch on the human family tree, a finding that would rewrite Homo's exodus from Africa. [Cosmos, 3/25/10]

Is this a new species of human being?
Scientists have extracted DNA from a bone discovered in Siberia that almost certainly belongs to a new kind of human – one that may have lived as recently as 30,000 years ago. Will this transform our views of human evolution? [Guardian, 3/26/10]

Near-threshold computing could enable up to 100x reduction in power consumption
While electronic devices have greatly improved in many regards, such as in storage capacity, graphics, and overall performance, etc., they still have a weight hanging around their neck: they’re huge energy hogs. When it comes to energy efficiency, today’s computers, cell phones, and other gadgets are little better off than those from a decade ago, or more. [Physorg.com, 2/17/10]

Rock climber takes on surfer's theory
The “exceptionally simple theory of everything,” proposed by a surfing physicist in 2007, does not hold water, says Emory mathematician Skip Garibaldi. Garibaldi, a rock climber in his spare time, did the math to disprove the theory, which involves a mysterious structure known as E8. [eScienceCommons, 3/18/10]

Nasa rides 'bucking bronco' to Mars
It weighs almost a tonne, has cost more than $2bn and, in 2013, it will be lowered on to the surface of Mars with a landing system that has never been tried before. The Mars Science Laboratory will "revolutionise investigations in science on other planets", says Doug McCuistion, director of Nasa's Mars exploration programme. [BBC News, 2/17/10]

Primordial giant: The star that time forgot
If the original conditions of the universe were preserved in these dwarf galaxies, there would be no reason why further waves of megastars should not continually form and die within them throughout cosmic time. If it is the absence of metals that determines stellar size, behemoth stars are not restricted to the furthest reaches of the universe: they could be found in any dwarf galaxy with a low enough metal content, including places well within reach of our telescopes. It is a line of reasoning that the identification of SN 2007bi now seems to support in spectacular fashion. [New Scientist, 2/15/10]

Do-It-Yourself Genetic Engineering
The first thing to understand about the new science of synthetic biology is that it’s not really a new science; it’s a brazen call to conduct an existing one much more ambitiously. For almost 40 years, genetic engineers have been decoding DNA and transplanting individual genes from one organism into another. [New York Times, 2/10/10]

The writing on the cave wall
What emerged was startling: 26 signs, all drawn in the same style, appeared again and again at numerous sites (see illustration). Admittedly, some of the symbols are pretty basic, like straight lines, circles and triangles, but the fact that many of the more complex designs also appeared in several places hinted to von Petzinger and Nowell that they were meaningful - perhaps even the seeds of written communication. [New Scientist, 2/17/10]

Comet crash creates potential for life
Striking a glancing blow to a planet could create the perfect conditions in a comet's icy core to create amino acids — molecules that are vital to forming life on Earth. [Nature News, 3/26/10]

Scientists supersize quantum mechanics
A team of scientists has succeeded in putting an object large enough to be visible to the naked eye into a mixed quantum state of moving and not moving. [Nature News, 3/17/10]

Everything you ever wanted to know about particle smashers (but were afraid to ask)
On March 30th, humanity is scheduled to start running the biggest, baddest particle collider ever constructed, the one that makes its closest competitor, Fermi's Tevatron, so out-of-date that the current plan is simply to shut the Tevatron down. But Brookhaven's RHIC, which can't even reach the Tevatron's energies, will be kept running indefinitely. [Nobel Intent, 3/28/10]

Evolution: Revenge of the hopeful monster
Experiments have revealed how single mutations can have huge effects that drive evolution. But small steps pave the way. [Nature News, 2/17/10]

Astronomy: The decadal dinner club
As hundreds of US astronomers draft their latest decadal wish list of new projects, Nature took a short-cut by convening a small survey around a dinner table. [Nature News, 2/17/10]

What Is Time? One Physicist Hunts for the Ultimate Theory
One way to get noticed as a scientist is to tackle a really difficult problem. Physicist Sean Carroll has become a bit of a rock star in geek circles by attempting to answer an age-old question no scientist has been able to fully explain: What is time? [Wired, 2/26/10]

Physicists look for the arrow of time, biologists find it
Carroll set up the problem by noting that, based on thermodynamics alone, we shouldn't expect that the Universe should be anything more than a momentary dip from maximum entropy. Unfortunately, that means that anything outside of the room we're in, and all of past history, is likely to be unreliable, an illusion of our specific entropy dip. We avoid this thermodynamic awkwardness because the big bang provides us with a low entropy boundary state. [Nobel Intent, 3/1/10]

Earth science: The climate machine
A new generation of sophisticated Earth models is gearing up for its first major test. But added complexity may lead to greater uncertainty about the future climate. [Nature News, 2/24/10]

Life beyond our universe: Physicists explore the possibility of life in universes with laws different from our own
Whether life exists elsewhere in our universe is a longstanding mystery. But for some scientists, there?s another interesting question: could there be life in a universe significantly different from our own? A definitive answer is impossible, since we have no way of directly studying other universes. But cosmologists speculate that a multitude of other universes exist, each with its own laws of physics. Recently physicists at MIT have shown that in theory, alternate universes could be quite congenial to life, even if their physical laws are very different from our own. [Physorg.com, 2/22/10]

Dopamine and Obesity: The D2 Receptor
Dopamine is a signaling molecule known as a neurotransmitter, which is released from one neuron and binds to receptors on another neuron to produce effects. There are two major classes of receptors which bind dopamine (called dopamine receptors, obviously), the D1 like and the D2 like. Both types of dopamine receptors are very important in addiction related stuff. [Neurotopia, 4/1/10]

Cognition Without Control
In "Cognition Without Control: When a Little Frontal Lobe Goes a Long Way," neuroscientist Sharon Thompson-Schill argues that kids' inability to filter out distractions is a good thing. In fact, she argues, it's precisely what makes them such prodigious learners of language. Written with a scientist from Stanford and a postdoc from her lab and published in Current Directions in Psychological Science, the paper looks at how immature, driven-to-distraction brain structures make possible the learning of complex social and linguistic conventions. [Physorg.com, 2/24/10]

On the hunt of what makes all of us recoil
The pungent sting of wasabi, the searing pain of tear gas, and the watery eyes we get from chopping an onion are all triggered by an ancient chemical sensor that is found in everything from humans to mollusks and may hold the key to developing new kinds of insect repellents and pain medications. Research by Brandeis University scientists finds that the ability to detect noxious compounds comes from a biological pathway older than our sense of smell, emerging far in the evolutionary past, about half a billion years ago. ... The sensor’s ubiquity and stability suggested it does something essential for the survival of animals, but what? [Boston.com, 3/29/10]


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