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New stellar danger to planets identified by NASA’S Chandra program

CHAMPAIGN, Ill. — An exploded star can pose more risks to nearby planets than previously thought, according to a new study from NASA’s Chandra X-ray Observatory and other X-ray telescopes. This newly identified threat involves a phase of intense X-rays that can damage the atmospheres of planets up to 160 light-years away. 

The results of the study, led by researchers at the University of Illinois Urbana-Champaign, Washburn University and the University of Kansas, are published in the Astrophysical Journal. 

Earth is not in danger of such a threat today because there are no potential supernova progenitors within this distance, but it may have experienced this kind of X-ray exposure in the past, scientists say. 

Before this study, most research on the effects of supernova explosions focused on the danger from two periods: the intense radiation produced by a supernova in the days and months after the explosion, and the energetic particles that arrive hundreds to thousands of years afterward. 

However, even these alarming threats do not fully catalog the dangers in the wake of an exploded star. Researchers have discovered that between these two previously identified dangers lurks another. The aftermaths of supernovae always produce X-rays, but if the supernova’s blast wave strikes dense surrounding gas, it can produce a particularly large dose of X-rays that arrives months to years after the explosion and may last for decades.

The calculations in this latest study are based on X-ray observations of 31 supernovae and their aftermath mostly obtained from Chandra, NASA’s Swift and NuSTAR missions and the European Space Agency’s XMM-Newton mission. The analysis of these observations shows that supernovae interacting with their surroundings can have lethal consequences for planets located up to about 160 light-years away.

“If a torrent of X-rays sweeps over a nearby planet, the radiation would severely alter the planet’s atmospheric chemistry,” said Ian Brunton, a former Illinois undergraduate now at NASA Johnson Space Flight Center and the first author of the study. “For an Earth-like planet, this process could wipe out a significant portion of ozone, which ultimately protects life from the dangerous ultraviolet radiation of its host star.”

If a planet with Earth’s biology were hit with sustained high-energy radiation from a nearby supernova, especially one strongly interacting with its surroundings, it could lead to the demise of a wide range of organisms, especially in marine environments at the foundation of the food chain. These effects may be significant enough to initiate a mass extinction event.

“The Earth is not in any danger from an event like this now because there are no potential supernovae within the X-ray danger zone,” said Illinois undergraduate student Connor O’Mahoney, a co-author of the study. “However, it may be the case that such events played a role in Earth’s past.”

There is strong evidence – including the detection in different locations around the globe of a radioactive type of iron – that supernovae occurred close to Earth between about two and eight million years ago. Researchers estimate these supernovae were between about 65 and 500 light-years away from Earth. 

Earth is in the “Local Bubble,” a still-expanding bubble of low-density hot gas surrounded by a shell of cold gas that spans about 1,000 light-years. The outward expansion of stars near the surface of the Local Bubble implies that it formed from a burst of star formation and supernovae near the center of the bubble about 14 million years ago, the researchers said. 

The massive young stars responsible for the supernova explosions were then much closer to our planet than such stars are now, which put Earth at much higher risk from these supernovae in the past. 

While this evidence does not tie supernovae to any particular mass extinction event on Earth, it does suggest cosmic explosions have affected our planet over its history, the researchers said. 

The study reports that although the Earth and the solar system are currently in a safe space in terms of potential supernova explosions, many other planets in the Milky Way are not. These high-energy events would effectively shrink the areas within the Milky Way galaxy, known as the Galactic Habitable Zone, where conditions would be conducive for life.

Because the X-ray observations of supernovae are sparse, particularly of the variety that strongly interact with their surroundings, the researchers said that follow-up observations of interacting supernovae for months and years after the explosion would be valuable.

“Further research on X-rays from supernovae is valuable not just for understanding the life cycle of stars,” said astronomy professor Brian Fields, who directed the Illinois portion of the study, “but also has implications for fields like astrobiology, paleontology and the earth and planetary sciences.”

Fields also is affiliated with physics and the Illinois Center for Advanced Studies of the Universe at the U. of I. 

NASA’s Marshall Space Flight Center manages the Chandra program. The Smithsonian Astrophysical Observatory’s Chandra X-ray Center controls science operations from Cambridge, Massachusetts, and flight operations from Burlington, Massachusetts.

Editor’s notes

This is a modified version of a news release distributed by NASA.

To reach Brian Fields, call 217-333-5529; email bdfields@illinois.edu

The paper “X-Ray-luminous supernovae: threats to terrestrial biospheres” is available online

DOI: 10.3847/1538-4357/acc728 

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