Monday, August 17, 2015

‘Kathryn’s Wheel’ Collision Lights Up Galaxy

Color image of the collision, made by combining the CTIO H-alpha image with red and blue images. Credit: Ivan Bojicic / the scientific team.

A spectacular collision between galaxies has been spotted near the Milky Way. Two small star systems are slamming into each other, producing a colourful firework display. Discovered by academics from the University of Manchester and the University of Hong Kong, the so-called ‘bull's-eye’ collision is happening just 30 million light years away from Earth, in a relatively nearby galaxy. Shock-waves from the collision compress reservoirs of gas in each galaxy and trigger the formation of new stars. This creates a spectacular ring of intense emission, and lights up the system like a Catherine wheel on bonfire night. Such systems are very rare and arise from collisions between two galaxies of similar mass.

The closest such system ever found, the discovery is announced today by a team of astronomers led by Professor Quentin Parker at the University of Hong-Kong and Professor Albert Zijlstra at the University of Manchester. The scientists publish their results in the journal Monthly Notices of the Royal Astronomical Society.

It has been dubbed “Kathryn’s wheel” both after the famous firework that it resembles, but also after Kathryn Zijlstra, who is married to Prof Zijlstra.

Galaxies grow through collisions but it is rare to catch one in the process, and extremely rare to see a bull's-eye collision in progress. Fewer than 20 systems with complete rings are known.

Kathryn's Wheel was discovered during a special wide field survey of the Southern Milky Way undertaken with the UK Schmidt Telescope in Australia. It used a narrow wavelength optical region centred on the so-called red “H-alpha” emission line of Hydrogen gas. This rare jewel was uncovered during a search of the survey images for the remnants of dying stars in our Milky Way. The authors were very surprised to also find this spectacular cosmic ring, sitting remotely behind the dust and gas of the Milky Way in the constellation of Ara (the Altar).

Residual image of the collision, made by subtracting the red image from the CTIO H-alpha image, which mostly cancels the contributions from normal stars and is effective in highlighting just the areas of active star formation. Credit: Quentin Parker / the scientific team.
Residual image of the collision, made by subtracting the red image from the CTIO H-alpha image, which mostly cancels the contributions from normal stars and is effective in highlighting just the areas of active star formation. Credit: Quentin Parker / the scientific team.

The newly discovered ring galaxy is seven times closer than anything found before, and forty times closer than the most famous example of collisional ring galaxies, the ‘Cartwheel’ galaxy. Kathryn's Wheel is located behind a dense star field and close to a very bright foreground star, which is why it had not been noted before. There are very few other galaxies in its neighborhood: the odds of a collision in such an empty region of space are low.

Professor Zijlstra said: “This is a very exciting find because it will allow astronomers to study how collisions cause star formation, how long the collision takes, and what types of stars form.

“It is not often that you get to name any objects in the sky. But I think Kathryn’s Wheel is particularly fitting, resembling as it does a firework and continuing the tradition of naming objects after loved ones.”

Professor Parker said: “Not only is this system visually stunning, but it’s close enough to be an ideal target for detailed study. The ring is also quite low in mass – a few thousand million Suns or less than 1% of the Milky Way – so our discovery shows that collision rings can form around much smaller galaxies than we thought.”

Smaller galaxies are more common than large ones, implying that collisional rings could be ten times as common as previously thought. The authors intend more detailed studies on larger telescopes since the system is currently the only one of its kind close enough to permit study in high detail.

The new work appears in Monthly Notices of the Royal Astronomical Society, Oxford University Press at: http://mnras.oxfordjournals.org/lookup/doi/10.1093/mnras/stv1432.

2 comments:

  1. God bless those wonderfull astronomer at Manchester,,,,its amazing the discoveries that are so near ouhome !! sincere congratulations from your admirers at los robles astronomy club.located in Maracaibo,Venezuela, best regards from Prof Patrick Morton ,colleagues and students

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