Astronomers Observe Mysterious Hot Spots on Betelgeuse

Apr 25, 2013 by

Astronomers using e-MERLIN Radio Telescope Array at the Jodrell Bank Observatory in Cheshire, UK, have captured a new image of the outer atmosphere of Betelgeuse, revealing the detailed structure of the matter being thrown off this red supergiant star.

Betelgeuse e-MERLIN image (University of Manchester)

Betelgeuse e-MERLIN image (University of Manchester)

Betelgeuse is a huge star located about 650 light years away. It is visible to the unaided eye as the bright, red star on the shoulder of Orion the Hunter.

The new image shows its atmosphere extends out to five times the size of the visual surface of the star. It reveals two hot spots within the outer atmosphere and a faint arc of cool gas even farther out beyond the radio surface of the star.

The hot spots are separated by roughly half the visual diameter of the star and have a temperature of about 4,000-5,000 Kelvin, much higher than the average temperature of the radio surface of the star and even higher than the visual surface. The arc of cool gas lies almost 7.4 billion km away from the star – about the same distance as the farthest Pluto gets from the Sun. It is estimated to have a mass almost two thirds that of the Earth and a temperature of about 150 Kelvin.

“It was not yet clear why the hot spots are so hot. One possibility is that shock waves, caused either by the star pulsating or by convection in its outer layers, are compressing and heating the gas. Another is that the outer atmosphere is patchy and we are seeing through to hotter regions within. The arc of cool gas is thought to be the result of a period of increased mass loss from the star at some point in the last century but its relationship to structures like the hot spots, which lie much closer in, within the star’s outer atmosphere, is unknown,” explained Dr Anita Richards of the University of Manchester, lead author of a paper published in the journal Monthly Notices of the Royal Astronomical Society ( version).

The mechanism by which supergiant stars like Betelgeuse lose matter into space is not well understood despite its key role in the lifecycle of matter, enriching the interstellar material from which future stars and planets will form. Detailed high-resolution studies of the regions around massive stars like the ones presented here are essential to improving our understanding.

“Betelgeuse produces a wind equivalent to losing the mass of the Earth every three years, enriched with the chemicals that will go into the next generation of star and planet formation. The full detail of how these cool, evolved stars launch their winds is one of the remaining big questions in stellar astronomy,” Dr Richards said.

“This is the first direct image showing hot spots so far from the center of the star. We are continuing radio and microwave observations to help decide which mechanisms are most important in driving the stellar wind and producing these hot spots. This won’t just tell us how the elements that form the building blocks of life are being returned to space, it will also help determine how long it is before Betelgeuse explodes as a supernova.”

Future observations planned with e-MERLIN and other arrays, including ALMA and VLA, will test whether the hot spots vary in concert due to pulsation, or show more complex variability due to convection. If it is possible to measure a rotation speed this will identify in which layer of the star they originate.


Bibliographic information: A. M. S. Richards et al. e-MERLIN resolves Betelgeuse at λ 5 cm: hotspots at 5 R. MNRAS, published online April 23, 2013; doi: 10.1093/mnrasl/slt036