FOR RELEASE: January 10, 1995

CONTACT:  Ray Villard
          Space Telescope Science Institute, Baltimore, MD
          (Phone: 410-338-4514)

          Sveneric Johansson           
          University of Lund, Sweden
          (Phone: 46-4612-6097)        

          Kris Davidson
          University of Michigan, Minneapolis
          (Phone: 612-624-5711)

PRESS RELEASE NO.: STScI-PR96-06


HUBBLE DISCOVERS POWERFUL LASER BEAMED FROM CHAOTIC STAR

Darth Vader take heart.  Astronomers have discovered a powerful 
ultraviolet laser beam, several times brighter than our Sun, shooting 
toward Earth from a super-hot "death star." 

The observations, made with NASA's Hubble Space Telescope have 
identified a gas cloud that acts as a natural ultraviolet laser, near the 
huge, unstable star called Eta Carinae -- one of most massive and 
energetic stars in our Milky Way Galaxy.  The interstellar laser may 
result from Eta Carinae's violently chaotic eruptions, in which it blasts 
parts of itself out into space, like an interstellar geyser.

Sveneric Johansson, a specialist in atomic spectroscopy at the 
University of Lund in Sweden, has been analyzing Hubble Space 
Telescope observations of Eta Carinae, made with the Goddard
High-Resolution Spectrograph (GHRS).  Johansson reports that his 
interpretation is not yet proven, but that it appears to be the most 
plausible explanation of the data.  

A laser, (which is an acronym for Light Amplification by Stimulated 
Emission of Radiation) creates an intense coherent beam of light when 
atoms or molecules in a gas, liquid or solid medium, force an incoming 
mix of wavelengths (or colors) of light to work in phase, or, at the
same wavelength.  Laser light is analogous to a loud, single-pitch 
note, while normal white light is analogous to audio static on a radio. 

The  ultraviolet laser in Eta Carinae shines by the same physics that 
led to the invention of artificial optical lasers in 1960 and similar, 
microwave devices called masers, in 1954.  Natural masers have 
been seen in space since  the mid-1960s, and an infrared laser was 
discovered around the hot young star MWC 349, earlier this year. 

"Each ultraviolet light particle (photon) generated in the Eta 
Carinae laser has almost 700 times the energy of a photon in 
MWC 349, and so the total energy output is far greater," said 
Kris Davidson of the University of Minnesota. "Natural infrared lasers 
are very rare in space; this ultraviolet laser is even more difficult for 
nature to arrange, and nothing like it has been seen before."

Eta Carinae is several million times brighter than the Sun, and one 
hundred times as massive.  The superstar, located 8,000 light-years 
away underwent a colossal outburst 150 years ago.  Radio and
X-ray astronomers have recently detected smaller outbursts in gas 
around the star.  Previous HST observations found that the gas 
from the earlier giant explosion now forms a bizarre double-lobed
nebula pinched in the center by a ragged equatorial disk.

In a Hubble Space Telescope investigation led by Davidson, 
including nine other collaborators in the U.S., Germany, and 
Sweden, ultraviolet light from the same gas is being closely studied. 
(This ultraviolet emission is in the wavelength range that is absorbed 
by the Earth's ozone layer, and hence must be studied from space).
 
Team member Johansson was particularly interested in emission by 
iron ions that seemed unnaturally bright in the new data.  He has found 
the only plausible explanation of the relative brightness of the iron 
emission lines is a natural laser emitting at energetic ultraviolet 
light.  
"The spectrum of singly-ionized iron (an iron atom with one electron 
removed) has almost a thousand known energy states and some of 
these are apparently well-suited to making a laser effect," said
Davidson.

The gas was ejected along the equatorial  plane of Eta Carinae about 
100 years ago.  Moving outward at about 100 thousand miles per 
hour, the gas is now about  60 billion miles, (100 billion kilometers), 
or 700 times the distance between Earth and the Sun.

The discovery could provide scientists with a new tool for studying 
gas recently shot out of unstable stars, interactions of radiation with 
atoms in space, and atomic structure in cosmic gas clouds.

The researchers are planing to use Hubble's Faint Object Spectrograph 
to observe the same gas, covering a wider range of wavelengths than 
the GHRS data.  This will hopefully lead to a better understanding of 
how the monster laser actually works.

                             * * * *

The Space Telescope Science Institute is operated by the Association 
of Universities for Research in Astronomy, Inc. (AURA), for NASA, 
under contract with the Goddard Space Flight Center, Greenbelt, MD.  
The Hubble Space Telescope is a project of international cooperation 
between NASA and the European Space Agency (ESA).

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