This image has three panels: one on the right, taking up about half the image, and two stacked on the left. In the upper left is a Hubble image of Betelgeuse. The star looks like a glowing ball of yellow light with a bright yellow circle in the center that fades outward to a dark orange. The outer edges appear hazy. Below the image of Betelgeuse are three scale bars. The first shows the size of the star as seen in the Hubble image above. Below that is a scale bar showing the size of Earth’s orbit, which is about a 15% the length of the star’s size. Finally, the last scale bar shows the orbit of Jupiter, which is about 70% as long as the star’s size. The panel on the right shows a black background with many stars of different sizes dotted around the image. The stars of Orion are called out with light white lines drawn between the major stars. An arrow points to one star at the upper left, the location of Betelgeuse.

Hubble Images the Star Betelgeuse

This is the first direct image of a star other than the Sun, made with NASA's Hubble Space Telescope. Called Alpha Orionis, or Betelgeuse, it is a red supergiant star marking the shoulder of the winter constellation Orion the Hunter (diagram at right). The Hubble image reveals a huge ultraviolet atmosphere with a mysterious hot spot on the stellar behemoth's surface. The enormous bright spot, twice the diameter of the Earth's orbit, is at least 2,000 Kelvin degrees hotter than the surface of the star. The image suggests that a totally new physical phenomenon may be affecting the atmospheres of some stars. Follow-up observations will be needed to help astronomers understand whether the spot is linked to oscillations previously detected in the giant star, or whether it moves systematically across the star's surface under the grip of powerful magnetic fields. The observations were made by Andrea Dupree of the Harvard- Smithsonian Center for Astrophysics in Cambridge, MA, and Ronald Gilliland of the Space Telescope Science Institute in Baltimore, MD, who announced their discovery today at the 187th meeting of the American Astronomical Society in San Antonio, Texas. The image was taken in ultraviolet light with the Faint Object Camera on March 3, 1995. Hubble can resolve the star even though the apparent size is 20,000 times smaller than the width of the full Moon - roughly equivalent to being able to resolve a car's headlights at a distance of 6,000 miles. Betelgeuse is so huge that, if it replaced the Sun at the center of our Solar System, its outer atmosphere would extend past the orbit of Jupiter (scale at lower left).

Credits: Andrea Dupree (Harvard-Smithsonian CfA), Ronald Gilliland (STScI), NASA and ESA
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Image CreditAndrea Dupree (Harvard-Smithsonian CfA), Ronald Gilliland (STScI), NASA and ESA
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