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STELLAR CHEMISTRY
Another blow for dark matter interpretation of galactic center excess
by Staff Writers
Amsterdam, Netherlands (SPX) Aug 09, 2018

Observed gamma ray emission from the Galactic disk, with the bulge region indicated. The insets show the expected profiles of excess radiation coming from dark matter and stars respectively. The researchers were able to show that the stars profile matches the measurements much better than the dark matter profile.

For almost ten years, astronomers have been studying a mysterious diffuse radiation coming from the center of our galaxy. Originally, it was thought that this radiation could originate from the elusive dark matter particles that many researchers are hoping to find.

However, physicists from the University of Amsterdam/GRAPPA and the Laboratoire d'Annecy-le-Vieux de Physique Theorique have now found further evidence that rapidly spinning neutron stars are a much more likely source for this radiation. Their findings are published in Nature Astronomy.

Observations of the gamma-ray radiation from the Galactic center region with the Fermi Large Area Telescope have revealed a mysterious diffuse and extended emission. Discovered almost 10 years ago, this emission generated a lot of excitement in the particle physics community, since it had all the characteristics of a long-sought-after signal from the self-annihilation of dark matter particles in the inner galaxy.

Finding such a signal would confirm that dark matter, a substance that so far has only been observed through its gravitational effects on other objects, is made out of new fundamental particles. Moreover, it would help to determine the mass and other properties of these elusive dark matter particles.

However, recent studies show that arguably the best astrophysical interpretation of the excess emission is a new population in the galactic bulge of thousands of rapidly spinning neutron stars called millisecond pulsars, which have escaped observations at other frequencies up to now.

Where There Are Stars, There Is Radiation
"Understanding in detail the morphology [the location and shape] and spectrum [the combined frequencies] of the excess emission is of vital importance for discriminating between the dark matter and astrophysical interpretations of the galactic center excess radiation," says Christoph Weniger, one of the researchers that conducted the study.

A new study by researchers at the University of Amsterdam and the Laboratoire d'Annecy-le-Vieux de Physique Theorique, a research unit of the French Centre National de la Recherche Scientifique, found strong evidence that the emission actually seems to come from regions where there is also a large amount of stellar mass in the galactic bulge (the 'boxy bulge') and center (the 'nuclear bulge').

Furthermore, the researchers found that the light-to-mass ratio in the galactic bulge and center are mutually consistent, so that the gamma-ray GeV emission is a surprisingly accurate tracer of stellar mass in the inner galaxy. This study was based on a new analysis tool, SkyFACT (Sky Factorization with Adaptive Constrained Templates), developed by the researchers themselves, which combines physical modeling with image analysis.

Research Report: "The Fermi-LAT GeV Excess Traces Stellar Mass in the Galactic Bulge," R. Bartels, E. Storm, C. Weniger and F. Calore, 2018 Aug. 6, Nature Astronomy


Related Links
Astronomie.nl
Stellar Chemistry, The Universe And All Within It


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STELLAR CHEMISTRY
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Atlanta GA (SPX) Jul 27, 2018
A thin gap has been discovered on the Hertzsprung-Russell Diagram (HRD), the most fundamental of all maps in stellar astronomy, a finding that provides new information about the interior structures of low mass stars in the Milky Way Galaxy, according to a study led by astronomers at Georgia State University. Just as a graph can be made of people with different heights and weights, astronomers compare stars using their luminosities and temperatures. The HRD is a "family portrait" of the stars in th ... read more

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