'Lopsided' supernova could be responsible for rogue hypervelocity stars

February 11, 2015 by Dan Majaess, Universe Today
Tauris 2015 argues that supernova explosions occurring in tight binary systems can help eject stars from the Galaxy at hypervelocities. Credit: IsiacDaGraca

Hypervelocity stars have been observed traversing the Galaxy at extreme velocities (700 km/s), but the mechanisms that give rise to such phenomena are still debated. Astronomer Thomas M. Tauris argues that lopsided supernova explosions can eject lower-mass Solar stars from the Galaxy at speeds up to 1280 km/s. "[This mechanism] can account for the majority (if not all) of the detected G/K-dwarf hypervelocity candidates," he said.

Several mechanisms have been proposed as the source for , and the hypotheses can vary as a function of stellar type. A simplified summary of the hypothesis Tauris favors begins with a higher-mass star in a tight binary system, which finally undergoes a core-collapse supernova explosion. The close proximity of the in the system partly ensures that the orbital velocities are exceedingly large. The binary system is disrupted by the , which is lopsided (asymmetric) and imparts a significant kick to the emerging neutron star. The remnants of supernovae with massive progenitors are or potentially a more exotic object (i.e., black hole).

Conversely, Tauris noted that the aforementioned binary origin cannot easily explain the observed velocities of all higher-mass hypervelocity stars, namely the B-stars, which are often linked to an ejection mechanism from a binary interaction with the supermassive black hole at the Milky Way's center. Others have proposed that interactions between multiple stars near the centers of star clusters can give rise to certain hypervelocity candidates.

There are several potential compact objects (neutron stars) which feature extreme velocities, such as B2011+38, B2224+65, IGR J11014-6103, and B1508+55, with the latter possibly exhibiting a velocity of 1100 km/s. However, Tauris ends by noting that, "a firm identification of a hypervelocity star being ejected from a binary via a is still missing, although a candidate exists (HD 271791) that's being debated."

Some astronomers argue that certain hypervelocity stars can stem from interactions in dense star clusters. Credit: NASA, ESA, and E. Sabbi (ESA/STScI)

Tauris is affiliated with the Argelander-Institut für Astronomie and Max-Planck-Institut für Radioastronomie. His findings will be published in the forthcoming March issue of the Monthly Notices of the Royal Astronomical Society.

The interested reader can find a preprint of Tauris' study on arXiv. Surveys of hypervelocity stars were published by Brown et al. 2014 and Palladino et al. 2014.

Explore further: Runaway binary stars

More information: "Maximum speed of hypervelocity stars ejected from binaries." arXiv:1412.0657 [astro-ph.SR] arxiv.org/abs/1412.0657

"MMT Hypervelocity Star Survey. III. The Complete Survey The," Astrophysical Journal, Volume 787, Issue 1, article id. 89, 13 pp. (2014). DOI: 10.1088/0004-637X/787/1/89

"Hypervelocity Star Candidates in the SEGUE G and K Dwarf Sample." IOP. DOI: 10.1088/0004-637X/780/1/7

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1 / 5 (1) Feb 11, 2015
The ejected star is not a neutron star or bh, then it would be expected to have "scaring" from the supernova in the form of lower hydrogen than normal (some stripped by the explosion) and higher metallicity than normal, since it may capture some of the slower moving metals from the explosion. During the first few minutes of the explosion just after the cloud hits the second star the cloud is being attracted by both star's mass, not just one star's mass. This means some of the mass from the exploding star will be gravitationally focused onto the second star anyway, in addition to the sector that is already mechanically focused onto the second star.

So...look for abnormal metallicity ratio and that's the smoking gun of a Supernova related ejection.

A SMBH related ejection doesn't necessarily leave a metallicity signature and would have to be assumed in cases where velocity is simply too high to explain by other means.
not rated yet Feb 11, 2015
I have a hard time conceptualizing what 2.8 million miles per hour really is (which is also 795 miles per second or 47721 miles per minute)......From my perspective,,,all I can say is "WOW" that is fast!!....And I have to wonder if any of the stars that are traveling that fast have ever crashed into another planet or star.

I wish I could bring Galileo back to life so he could see what has been discovered. I bet he would be in awe!!

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