noao0305 — Comunicado científico

Astronomers Peg Brightness of History’s Brightest Star

5 Marzo 2003

A team of astronomers headed by Frank Winkler of Middlebury College has combined precise digital observations with simple mathematics to estimate the apparent brightness of an exploding star whose light reached Earth nearly a thousand years ago, when it produced a display that was probably the brightest stellar event witnessed in recorded human history.

On May 1, 1006 A.D., a spectacularly bright star appeared suddenly in the southern sky in the constellation Lupus (the wolf), to the south of Scorpio. Observers in China, Japan, Egypt, Iraq, Italy, and Switzerland recorded observations of the star, which remained visible for several months before becoming lost in the glare of daylight. While all agree that the star was spectacularly bright, it has not been clear until now just how bright.

Modern astronomers have long concluded that the 1006 A.D. display resulted from a supernova, a distant star that ended its life in a spectacular explosion. Yet as bright as it appeared in the 11th century, the remains of the supernova are all but invisible today.

Through a series of observations with telescopes at the Cerro Tololo Inter-American Observatory (CTIO) in Chile, Winkler and his team, including Middlebury College undergraduate student Gaurav Gupta (now a graduate student at Cornell University) and Knox Long from the Space Telescope Science Institute in Baltimore, found a faint shell of glowing hydrogen surrounding the site where the star exploded. The glowing shell, about the diameter of the full Moon as seen from Earth, is produced by the shock wave from the original explosion as it propagates outward through the extremely tenuous gas of interstellar space.

The astronomers used imaging observations spanning a period of 11 years to measure how fast the brightest filaments in the shell are expanding. Other recent spectral observations of these same filaments can be used to determine the absolute value of the shock wave’s speed. This speed turns out to be 2,900 kilometers per second (over 6 million miles an hour), or almost 1 percent of the speed of light.

Knowing both the rate at which the distant shell appears to be expanding and the corresponding true velocity, the astronomers used simple geometry to calculate a precise distance from Earth to the shell. The result, 7,100 light-years, must also be the distance to the star that exploded. (This means that while the light from the supernova first reached Earth in 1006 A.D., the actual explosion took place 7,100 years earlier.)

Although there are several different types of supernovae, the one that occurred in 1006 was almost certainly what is known as a “Type Ia,” the same type that several other teams are using to measure the apparently accelerating expansion of the Universe. These are spectacularly luminous events: for a few weeks a Type Ia supernova glows as bright as five billion suns. Furthermore, all Ia’s have virtually the same luminosity—just as all 100-Watt light bulbs produce the same amount of light.

The supernovae that astronomers are using to study the distant universe are located in other galaxies at vast distances, and their light is so feeble by the time it reaches Earth that large telescopes are needed just to detect them. But the 1006 supernova was located “right next door,” in relative terms, in a fairly nearby part of the Milky Way galaxy.

By knowing this distance and the standard luminosity of Ia supernovae, we can calculate, in retrospect, just how bright the star must have appeared to 11th century observers,” Winkler explains. “On the magnitude scale used by astronomers, it was about minus 7.5, which puts its brightness a little less than halfway between that of Venus and that of the full Moon. And all that light would have been concentrated in a single star, which must have been twinkling like crazy.

The most explicit historical record of the 1006 star’s brightness comes from the Egyptian physician and astrologer Ali bin Ridwan, who in fact compared the spectacle both with Venus and with the Moon. “It’s taken a long time to interpret what he meant,” Winkler comments, “but now I think we’ve finally got it right.

To visualize how bright the 1006 supernova appeared, find the planet Jupiter, high in the southeast and the brightest object now visible in the evening sky. “If you compare Jupiter with the three stars that make up the belt of Orion, a bit farther west in the sky, the planet is obviously much brighter than any of the belt stars,” Winkler says. “At its peak, the supernova of 1006 would have appeared about as much brighter compared to Jupiter now, as Jupiter is in comparison with the faintest of the stars in Orion’s belt.

There’s no doubt that it would have been a truly dazzling sight,” Winkler concluded, “In the spring of 1006, people could probably have read manuscripts at midnight by its light.

Notas

CTIO is part of the National Optical Astronomy Observatory (NOAO), which is operated by the Association of Universities for Research in Astronomy (AURA), Inc., under a cooperative agreement with the National Science Foundation.

Astrophysics research at Middlebury College, Middlebury, VT, is also supported by the National Science Foundation.

Enlaces

  • An article describing these results was published in the March 1, 2003, issue of The Astrophysical Journal. A still image and a short movie showing the movement of the expanding shell observed around the supernova of 1006 A.D. is available above.

Contactos

Douglas Isbell
Public Information OfficerNational Optical Astronomy Observatory
Tel: 520/318-8214
Correo electrónico: disbell@noao.edu

Phil Benoit
Director of Public Affairs Middlebury College
Tel: 802/443-5198
Correo electrónico: benoit@middlebury.edu

About the Release

Release No.:noao0305
Legacy ID:NOAO 03-05
Nombre:SN 1006
Facility:Nicholas U. Mayall 4-meter Telescope, WIYN 0.9-meter Telescope
Science data:2003ApJ...585..324W

Imágenes

Astronomers Peg Brightness of History’s Brightest Star
Astronomers Peg Brightness of History’s Brightest Star

Videos

Astronomers Peg Brightness of History’s Brightest Star
Astronomers Peg Brightness of History’s Brightest Star