Revealed: first image of a new planet being formed with star dust

World's highest radio telescope captures image (left) providing evidence of how 'gas' planets are formed

Steve Connor
Wednesday 02 January 2013 19:00 GMT
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Observations (left) made with the Atacama Large Millimeter/submillimeter Array (ALMA) telescope of the young star HD 142527. The dust in the outer disc is shown in red. Dense gas in the streams flowing across the gap, as well as in the outer disc, is show
Observations (left) made with the Atacama Large Millimeter/submillimeter Array (ALMA) telescope of the young star HD 142527. The dust in the outer disc is shown in red. Dense gas in the streams flowing across the gap, as well as in the outer disc, is show

The world’s highest radio telescope, built on a Chilean plateau in the Andes 5,000 metres above sea level, has captured the first image of a new planet being formed as it gobbles up the cosmic dust and gas surrounding a distant star.

Astronomers have long predicted that giant “gas” planets similar to Jupiter would form by collecting the dust and debris that forms around a young star. Now they have the first visual evidence to support the phenomenon, scientists said.

The image taken by the Atacama Millimetre-submillimetre Array (ALMA) in Chile shows two streams of gas connecting the inner and outer disks of cosmic material surrounding the star HD 142527, which is about 450 light-years from Earth.

Astronomers believe the gas streamers are the result of two giant planets – too small to be visible in this image – exerting a gravitational pull on the cloud of surrounding dust and gas, causing the material to flow from the outer to inner stellar disks, said Simon Casassus of the University of Chile in Santiago.

“The most natural interpretation for the flows seen by ALMA is that the putative proto-planets are pulling streams of gas inward towards them that are channelled by their gravity. Much of the gas then overshoots the planets and continues inward to the portion of the disk close to the star, where it can eventually fall onto the star itself,” Dr Casassus said.

“Astronomers have been predicting that these streams exist, but this is the first time we’ve been able to see them directly. Thanks to the new ALMA telescope, we’ve been able to get direct observations to illuminate current theories of how planets are formed,” he said.

The image, published in the journal Nature, appears to answer a long-standing conundrum of star formation: how does a new sun continue to grow by accumulating cosmic material when orbiting proto-planets are busy gobbling up the same source of cosmic dust and gas, creating huge gaps in the star-forming cloud of material.

“This has been a bit of a mystery, but now we have found a process that allows the star to continue to grow despite the gap,” Dr Casassus said.

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