WHAT ARE X-RAYS?
As long as astronomers have pointed their telescopes skyward, they
have pondered the nature and origin of the universe. X-rays, a form of
electromagnetic radiation, carry answers to many of these questions.
X-rays,
which are invisible to the human eye, are created in the cores of
active
galaxies, in cataclysmic stellar accretion onto white dwarves, neutron
stars and black holes, and in streams of gas expelled by the sun and
stars.
An X-ray is a quantum of electromagnetic radiation with energy some
1000
times greater than that of optical photons. So, if it is generated in a
thermal process, the temperature must be of the order 1000 times
greater
that that in places where light is produced. Thus a search for cosmic
x-rays
is a search for material at temperatures of millions of degrees.
THE DIFFICULTY OF STUDYING X-RAYS
Unfortunately, the earth's atmosphere absorbs these high energy rays,
hindering astronomers attempts to learn their secrets. To see X-rays at
all, it is necessary to be above 90% of the Earth's atmosphere, and to
detect X-rays in the band where sources are most prominent, all but one
millionth of the atmosphere must be below the instrument. X-ray
astronomy
can only be carried out at high altitudes because of the photoelectric
absorption of X-rays by the atoms and molecules of the Earth's
atmosphere.
Therefore rockets are required to lift X-ray detectors above earth's
atmosphere.
It is not a trivial matter to build instruments that are large enough
to
be sensitive, yet small enough to fit within a rocket. Instruments have
to withstand the rigors of launch but also operate in a vacuum.
A SERENDIPITOUS DISCOVERY
Early detector flights only lasted five minutes, but were enough to
show an X-ray rich sky. This was a surprising discovery as these first
sources had not been predicted by astronomers. Until 1962, very few
astronomers
believed that the universe contained objects capable of generating
detectable
amounts of high energy radiation and little was expected from the first
observations. Then in 1962, an X-ray detector was launched in order to
study possible X-ray fluorescence on the moon. Although the detector
failed
to detect any X-rays from the moon, it made the first detection of a
powerful
cosmic X-ray source. This source consequently became known as Sco X-1,
the first discovered source in the Scorpius constellation. This new
discovery
lead to an explosion of study in X-ray astrophysics, and the subsequent
discovery of many other X-ray sources. Among the earliest detections of
X-rays sources was that of the diffuse X-ray background
radiation.
The diffuse X-ray background was also not anticipated before discovery. It was initially recognized in data from the 1962 rocket flight which first detected Sco X-1. The observers concluded that the background was of "diffuse character" and due to X-rays of about the same energy as those from Sco X-1. The X-ray background at all except the lowest energies is featureless. X-rays come uniformly from all directions to form a high energy glow between the stars. There is neither spatial structure nor sharp spectral feature to indicate production mechanism, distance, or origin. Nevertheless, the X-ray background is a strong signal, and must be understood. Among other things it probably contains information about X-ray emission from the universe at early times. Because of this, many consider the background to be the most important topic in X-ray astronomy. The exact nature of the diffuse X-ray background remains elusive.