Adhara

ADHARA (Epsilon Canis Majoris). The names of all the first magnitude stars ring clearly to us; even the names of those in the southern hemisphere are well known. Adhara has escaped the fame it deserves. Also known as Epsilon Canis Majoris, it is actually the second brightest star in the constellation (after Sirius), and helps form the western leg of Canis Major, the larger dog. Look just below Sirius to find an outstanding triangle of bright stars. Adhara is at the lower right. The ancient Arabs referred to this small three-star pattern as "The Virgins," to which the name "Adhara" (the westernmost of the three) actually refers. No one knows why the name was given or who they were. Adhara has an apparent magnitude of 1.50, and therefore is sometimes referred to as the last of the "first magnitude" stars or as the brightest of the "second magnitude." The latter view and the star's rather southern position in the sky has led to its being somewhat ignored. In fact, Adhara, a class B (B2) bright giant, is quite the magnificent star. Among the hotter of bright stars, Adhara shines with a surface temperature of some 20,900 degrees Kelvin (above absolute zero), which gives it a sparkling bluish cast. From its distance of 430 light years we calculate a luminosity to the eye of 3700 times that of the Sun. If at the distance of Sirius, which dominates Canis Major, Adhara would shine at apparent magnitude -7, 8 times brighter than Venus at its most luminous. Because of the star's high temperature it radiates a good portion of its energy in the invisible ultraviolet. If that is taken into account, Adhara is actually 21,700 times more luminous than the Sun. Indeed, if you had ultraviolet eyes, Adhara would be the brightest star in the sky. Adhara's angular diameter leads to a physical radius 11.4 times solar. Combining radius and temperature yields a very similar luminosity of 22,000 Suns, showing that the measured parameters are all very nearly correct. Temperature and luminosity then lead to a mass 10 to 12 times that of the Sun, which is probably enough to make the star someday explode as a supernova. Having ceased hydrogen fusion in its core, Adhara is actually in the beginning of its death stages (cessation of core hydrogen fusion), and is now more in its "subgiant" state. It is very popular among those who study local interstellar matter, as its simple and bright spectrum is used to examine the stuff that lies between it and the Sun. Seven seconds of arc away lies an 8th or 9th magnitude (depending on whom you ask) companion that from its brightness is probably a mid-class A star. The two are at least 920 Astronomical Units apart and take at least 7500 years to make a full orbit.

Written and updated by Jim Kaler 5/04/07. Return to STARS.