The Spitzer Space Telescope has discovered some of life's most basic ingredients in the dust swirling around the young star IRS 46. The ingredients -- gaseous precursors to DNA and protein -- were detected in the star's terrestrial planet zone, a region where rocky planets such as Earth are thought to be born.
The findings represent the first time that these gases, called acetylene and hydrogen cyanide, have been found in a terrestrial planet zone outside of our own.
Position (J2000): RA: 16h 27m 29.4s Dec: -24d 39m 16.3s Size 14'1 x 14'1
"This infant system might look a lot like ours did billions of years ago, before life arose on Earth" - Fred Lahuis of Leiden Observatory in the Netherlands and the Dutch space research institute called SRON.
Lahuis is lead author of a paper to be published in the Jan. 10 issue of the Astrophysical Journal Letters. Lahuis and his colleagues spotted the organic, or carbon-containing, gases around a star called IRS 46. The star is in the Ophiuchus, or "snake carrier," constellation about 375 light-years from Earth. This constellation harbours a huge cloud of gas and dust in the process of a major stellar baby boom. Like most of the young stars here and elsewhere, IRS 46 is circled by a flat disk of spinning gas and dust that might ultimately clump together to form planets. When the astronomers probed this star's disk with Spitzer's powerful infrared spectrometer instrument, they were surprised to find the molecular "barcodes" of large amounts of acetylene and hydrogen cyanide gases, as well as carbon dioxide gas. The team observed 100 similar young stars, but only one, IRS 46, showed unambiguous signs of the organic mix.
"The star's disk was oriented in just the right way to allow us to peer into it" - Fred Lahuis .
The Spitzer data also revealed that the organic gases are hot. So hot, in fact, that they are most likely located near the star, about the same distance away as Earth is from our sun.
"The gases are very warm, close to or somewhat above the boiling point of water on Earth. These high temperatures helped to pinpoint the location of the gases in the disk" - Dr. Adwin Boogert, California Institute of Technology, Pasadena.
IRS 46, also known as YLW16b and GY274, is part of the Ophiuchus cloud at a distance of ~125 pc, (410 ly) The shapes of the features in this spectrum helped pinpoint the location of the gases in the star's disk. A feature's shape reflects the temperature of the gas. By comparison with model spectra, astronomers were able to deduce that the gases are present in regions where the temperature ranges from approximately the boiling point of water on Earth, to nearly a thousand degrees centigrade. Such hot temperatures place the gases in the star's terrestrial planet zone, which is sometimes referred to as the "Goldilocks" zone because it is just right for Earths. Acetylene and hydrogen cyanide are some of life's most basic starting materials. If you mix them together in a test tube with water, and give them some kind of surface on which to be concentrated and react, you'll get a slew of organic compounds, including many of the 20 essential amino acids and one of the four chemical units, called bases, that make up DNA.
Organic gases such as those found around IRS 46 are found in our own solar system, in the atmospheres of the giant planets and Saturn's moon Titan, and on the icy surfaces of comets. They have also been seen around massive stars by the European Space Agency's Infrared Space Observatory, though these stars are thought to be less likely than sun-like stars to form life-bearing planets. Here on Earth, the molecules are believed to have arrived billions of years ago, possibly via comets or comet dust that rained down from the sky. Acetylene and hydrogen cyanide link up together in the presence of water to form some of the chemical units of life's most essential compounds, DNA and protein. These chemical units are several of the 20 amino acids that make up protein and one of the four chemical bases that make up DNA.
This graph, or spectrum, from NASA's Spitzer Space Telescope tells astronomers that some of the most basic ingredients of DNA and protein are concentrated in a dusty planet-forming disk circling a young sun-like star called IRS 46. These data also indicate that the ingredients -- molecular gases called acetylene and hydrogen cyanide -- are located in the star's terrestrial planet zone, the region where scientists believe Earth-like planets would be most likely to form.
"If you add hydrogen cyanide, acetylene and water together in a test tube and give them an appropriate surface on which to be concentrated and react, you'll get a slew of organic compounds including amino acids and a DNA purine base called adenine. And now, we can detect these same molecules in the planet zone of a star hundreds of light-years away" - Dr. Geoffrey Blake, Caltech, co-author of the paper.
Follow-up observations with the W.M. Keck Telescope atop Mauna Kea in Hawaii confirmed the Spitzer findings and suggested the presence of a wind emerging from the inner region of IRS 46's disk. This wind will blow away debris in the disk, clearing the way for the possible formation of Earth-like planets.