Long-Period Red Variables
Another important class of pulsating variables consists of the long-period red
variables.
These are red supergiants, the largest stars of all. They also are called
irregular
red variables, because they typically do not pulse with a completely regular period.
Long Pulsation Periods
Since these variables are red supergiant stars, by our previous arguments they
should have low densities and thus long periods. Indeed, the periods for stars in this class are
even longer than for Cepheid variables; they typically pulsate with
periods of hundreds of days. The reason for the pulsation is not well known, but
may be associated with internal
ionization zones that alter the opacity and thus the energy flow in the star.
Mira the Wonderful
Some long-period variables exhibit dramatic light changes, since their brightness can change
by as much as 7 magnitudes over a cycle. Indeed, the most famous red variable, Omicron Ceti, which was
the first variable star discovered (in 1596 by German clergyman
Johann Goldsmit, 14 years before the telescope was invented),
changes from visible to invisible for a naked-eye
observer over its
period because it varies from 9.3 to 3.5 apparent visual magnitude. For this reason, it is sometimes
called Mira ("wonderful" in Latin).
The lightcurve for Mira is shown in the top right figure; its period is
around 11 months. Red variables with characteristics similar to Omicron Ceti
are sometimes called Mira
variables. Their periods can range from several months up to about 2 years.