One of the true wonders of the Space Age is that astronomers can now see the universe through all the wavelengths of the electromagnetic spectrum, from radio waves at the low-energy end to the powerful, don't-mess-with-us gamma rays at the high end.

Launched in June 2008, NASA's Fermi spacecraft isn't the first to view the gamma-ray cosmos, but its Large Area Telescope has been finding sources with unprecedented sensitivity and pinpointing their locations to within 1 arcminute (130 the diameter of a full Moon). Fermi's LAT creates an all-sky map every three hours, and over time its cumulative exposures are revealing never-before-seen details.

Fermi bubbles

NASA's Fermi spacecraft has discovered a pair of enormous gamma-ray-emitting bubbles extending from the Milky Way's center. Although not apparent in an all-sky gamma-ray map (upper panel), the dumbbell-shaped feature became evident after removing other sources (lower panel). The bubbles extend 50° north and south from the galactic plane, spanning the sky from Virgo to Grus. Click on the image for a larger view.

NASA / DOE / Fermi LAT / D. Finkbeiner & others

One such detail, it seems, is that the Milky Way has been blowing bubbles recently. Meng Su, Tracy Slatyer, and Douglas Finkbeiner (Harvard-Smithsonian Center for Astrophysics) found a matched pair of gigantic, 25,000-light-year-long lobes after sifting through Fermi's data. The bubbles weren't recognized earlier because they aren't very obvious — the team coaxed them into view only after masking bright sources and subtracting a "fog" of gamma-ray emission that pervades the entire sky.

Interestingly, clues to the existence of these bubbles have been lying around for decades. During the 1990s the German-built X-ray observatory Rosat traced out two sets of cone-shaped arcs that coincide with the bubbles' edges. Later, NASA's WMAP satellite detected a "microwave haze" that corresponds to the bubbles' interiors. Other space observatories have spotted telltale evidence too. "There were prior hints," Finkbeiner explains, "but they were only hints."

The real breakthrough came last year when Gregory Dobler (University of California, Santa Barbara), Finkbeiner, and others spotted hazy pools of gamma-ray emission above and below the galactic center that mapped onto those seen by WMAP. "We had barely submitted that one," Finkbeiner recalls, "when I suggested we dig into the data further and see if the edges we could barely see were actually real. By about December 2009 I thought there was probably something there."

Fermi bubbles in cross section

As depicted in this NASA illustration, the twin "bubbles" seen in Fermi's gamma-ray observations also manifest themselves at X-ray and radio wavelengths.

NASA / Goddard Space Flight Center

Lots of galaxies exhibit two-lobed jets of matter and energy erupting from their cores, but the "Fermi bubbles" defy easy explanation. One possible cause is a titanic burp or energy from the supermassive black hole lurking at the Milky Way's center, perhaps coming after gobbling up something massive in its vicinity. As the blast wave expands into the galactic polar regions, it energizes electrons that then give off gamma rays. However, as Meng and his colleagues point out in their just-accepted Astrophysical Journal article, such bipolar jets rarely display such perfect symmetry or the wide, rounded shapes seen by Fermi's LAT.

Another possibility is that there's been a recent burst of star formation in our galaxy's crowded center. That's apparently what happened in NGC 3079, a galaxy with tall pillars of gas extending from its core.

Gamma rays from Fermi's bubbles

The bubbles display a spectrum with higher peak energies than that of the diffuse gamma-ray glow seen throughout the sky.

NASA / DOE / Fermi LAT / D. Finkbeiner & others

Fermi's bubbles do have sharp edges, perhaps marking expanding shock fronts, but the gamma-ray spectrum recorded by Fermi is very "hard" (dominated by especially high-energy emissions) — not what theorists would expect from starburst-triggered outflows.

One head-scratcher is that the twin bubbles are remarkably uniform — they're not especially bright along their edges (which would favor the starburst hypothesis) or in their centers (better fit to a black-hole outburst). "There is likely more than one thing going on here," admits Finkbeiner. Either way, the bubbles must have formed only within the last 10 million years and perhaps much more recently.

"These hypotheses require us to live at a special time," Finkbeiner comments. "We always like to start by assuming everything is in steady state and there is nothing special about being alive right now. Given the appearance of these structures, we have to reconsider that."

More observations from Fermi, while useful in clarifying the bubbles' exact shape, probably won't resolve how they formed. Help might come from microwave observations now under way by the Planck space observatory and by a yet-to-be-launched German experiment called EROSITA.

Comments


Image of Lisa Rosati

Lisa Rosati

November 13, 2010 at 8:21 am

On pages 124-125 in 'Cycles of Fire.' (1987) William K Hartmann illustrated what was known at the time about galactic center and the activity taking place there. The painting is of "...light year thick streamers of gas in hooplike filaments, probably oriented by the strong magnetic field of the nucleus"
His caption does not explain what might be causing the newly discovered 'bubbles', but clues in on how to go about viewing the sources of them.
Perhaps an electromagnetic profile using several lower energy wavelengths-infrared/radio spectrum would be helpful. Perhaps there are several LARGE sources in regular orbits that leave artifacts in other frequencies. Perhaps these sources have characteristics of lower specific densities than might be expected. Perhaps their signature, seen in the gamma ray artifacts, would show up in lower frequency wavelengths.
Worth a try, perhaps (?)

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Image of Lisa Rosati

Lisa Rosati

November 13, 2010 at 8:49 am

On pages 124-125 in 'Cycles of Fire.' (1987) William K Hartmann illustrated what was known at the time about galactic center and the activity taking place there. The painting is of "...light year thick streamers of gas in hooplike filaments, probably oriented by the strong magnetic field of the nucleus"
His caption does not explain what might be causing the newly discovered 'bubbles', but clues in on how to go about viewing the sources of them.
Perhaps an electromagnetic profile using several lower energy wavelengths-infrared/radio spectrum would be helpful. Perhaps there are several LARGE sources in regular orbits that leave artifacts in other frequencies. Perhaps these sources have characteristics of lower specific densities than might be expected. Perhaps their signature, seen in the gamma ray artifacts, would show up in lower frequency wavelengths.
Worth a try, perhaps (?)

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Image of blue

blue

November 17, 2010 at 12:27 am

im a beginner please speak in plain terms. could this be that big bang they were looking for?

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Image of Kate

Kate

November 17, 2010 at 2:50 pm

"Either way, the bubbles must have formed only within the last 10 million years and perhaps much more recently." -- How do we know the age of these bubbles? What requires them to be this young, astronomically speaking?

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Image of Peter Wilson

Peter Wilson

November 18, 2010 at 11:27 am

Considering the rest mass of the proton is about 1 GeV, it’s pretty remarkable that the bubble spectrum peaks around 100 GeV.

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Image of jim henson

jim henson

November 26, 2010 at 7:50 am

A carbon nucleus is an extremely self-similar analogue to our galaxy. Carbon atom orbital shells photographed by x-rays show the same fractal lobe pattern that our galaxy bubbles have. Atomic nuclei emit a gamma ray by a relativistic jet and form similar bubbles. Cosmologist Robert Oldershaw explains there is a wavefunction for both electrons and protons that is commonly accepted today. Oldershaw believes these lobes appear like p-orbitals. This could mean that there is a plasma pinch at the center of our galaxy, producing relativistic jets and associated x-rays & gamma rays, and does not require a black hole nor fictious dark matter. Plasma Cosmology EM forces can explain away dark matter particles and the big-bang.
http://www.quantauniverse.com

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