What are Quasars?
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The arrow points to a quasar at redshift
6.2 discovered by SDSS |
As you can see, the third spectrum differs greatly from the first
two. It is the spectrum of a quasar.
Quasars are so far away that most look like single bright points
in the sky - just like normal stars. This is why Photo usually classifies them
as stars. To tell the difference between a very distant quasar and a
relatively close star, you need to look at other things beside its image,
such its colors or its spectrum.
The word "quasar" originally stood for "quasi-stellar radio source." Although
quasars were originally discovered due to their radio emissions, only
about 10% of quasars have substantial radio emissions. These quasars
are now called radio loud quasars. Quasars without strong radio
emissions are called radio quiet quasars. Researchers are still
trying to determine what makes a quasar radio loud or radio quiet.
All quasars have a substantial redshifts in their spectra. As you learned in the
Hubble Diagram project, objects that move away from us
have their light shifted toward the red end of the spectrum. The familiar spectral
lines seen in most stars and galaxies are frequently redshifted too far
into the infrared for us to see. Spectral lines that were too far in
the ultraviolet for us to detect in nearby objects move into the visible
portion of the spectrum of a quasar. You saw these lines in the quasar spectrum
in Question 3.
Let's look at the spectra of some quasars and see how they vary.
Exercise 2.
The table below gives several of the SDSS's quasar spectra by
their spectral plate and fiber numbers. Click on the fiber numbers
to use SkyServer's
Get
Spectra tool to view each quasar's spectrum. Do all quasars have the same emission lines?
Look at the redshift, which is the "z" value written at the bottom of the spectrum.
Do you notice a relationship between redshift and emission lines?
Use this SkyServer workbook to keep track
of your notes.
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