The most detailed map ever of clouds of high-velocity gas in the Universe surrounding us has been created by an Australian astronomer from The University of Western Australia.
“These gas clouds are moving towards or away from us at speeds of up to a few hundred kilometres per second,” he said. “They are clearly separate objects,” said Dr Tobias Westmeier from The University of Western Australia node of the International Centre for Radio Astronomy Research.
A false-colour all-sky map combining the column density and radial velocity of high-velocity neutral hydrogen gas detected by the HI4PI survey. Brightness corresponds to column density and hue to radial velocity. Credit: ICRAR.
The map suggests that at least 13 per cent of the sky is covered by high-velocity clouds. It covers the entire sky and shows curious clouds of neutral hydrogen gas that are moving at a different speed to the normal rotation of the Milky Way.
The map, compiled by taking a picture of the sky and masking out gas that is moving at the same pace as the Milky Way, show the location of gas travelling at a different speed.
The result is the most sensitive and highest resolution all-sky map of high-velocity clouds ever created. It shows the gas in spectacular detail, revealing never before seen filaments, branches and clumps within the clouds.
“Starting to see all that structure within these high-velocity clouds is very exciting. It’s something that wasn’t really visible in the past, and it could provide new clues about the origin of these clouds and the physical conditions within them,” Dr Westmeier said.
Several hypotheses about where high-velocity clouds come from had been proposed.
“We know for certain the origin of one of the long trails of gas, known as the Magellanic Stream, because it seems to be connected to the Large and Small Magellanic Clouds. But all the rest, the origin is unknown and until about a decade ago, even the distances to high-velocity clouds had been a mystery,” Dr Westmeier said.
“We now know that the clouds are very close to the Milky Way, within about 30,000 light years of the disc. That means it’s likely to either be gas that is falling into the Milky Way or outflows from the Milky Way itself.”
“For example, if there is star formation or a supernova explosion it could push gas high above the disc.”
The map will be freely available to astronomers around the world, helping us to learn more about high-velocity clouds and the local Universe.
The research used data from the HI4PI survey, a study of the entire sky released late last year. The survey combines observations from CSIRO’s Parkes Observatory in Australia and the Effelsberg 100m Radio Telescope operated by the Max-Planck Institute for Radio Astronomy in Germany.