Variable Stars and Binaries
The stars we see in the sky aren’t as constant as they seem. When observed over a period of days or years, the amount of light we see from some stars can change. Sometimes that means the star is old and is actually pulsating in and out, with subsequent changes in its light output. Other times, the variation comes because the star is in a binary system, and the changes come as the star and its companion move back and forth. Variable stars and binaries are both important in stellar evolution, as well as providing ways of measuring cosmic distances.
Our Work
Center for Astrophysics | Harvard & Smithsonian astronomers study variable and binary stars in several ways:
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Observing pulsating stars in the final stages of evolution to understand the internal processes involved. During the last phases of life, giant stars shed huge amounts of matter as they pulsate. Studying this process reveals information about what’s going on deep in the star’s interior. Using the Atacama Large Millimeter/submillimeter Array (ALMA) and other observatories, astronomers can identify the composition of the “winds” from aging stars.
Pulsation-Driven Winds in Giant Stars -
Understanding the dynamics of extreme variable stars. In some cases — including Mira — an aging pulsating star is also in a binary system. A Mira-type variable star known as R Aquarii also has a companion white dwarf. Researchers used NASA’s Chandra X-ray Observatory and other instruments to study this complicated star system to determine if the companion is part of the reason for the extreme variations in light we observe.
R Aquarii: Watching a Volatile Stellar Relationship -
Tracking star formation to understand how binary systems form. Based on the sheer number of binary stars, along with the way stars form in clusters, many astronomers think all stars form as binaries or multiples. Later, many of those stars get separated from their partners due to complex gravitational dynamics between the stars in a cluster. That means the Sun likely has a twin somewhere in the galaxy.
New Evidence That All Stars Are Born in Pairs -
Studying cataclysmic variable stars, which are one partner in a binary steals mass from the other. Cataclysmic variable (CV) systems contain an ordinary star and a white dwarf. The tidal force from the white dwarf causes the star to swell up and overflow some of its gas onto the white dwarf, where it heats up and flares.
Exotic Binary Stars
Wonderful Changing Stars
In the constellation of Cetus the Whale, one star seems to disappear on a regular basis, then reappear. This star, named Mira — meaning “wonderful” in Latin — was the first variable star to be recognized as such. Mira changes in size dramatically over the course of 332 days. At its largest, it’s bright enough to be seen without a telescope, but as it shrinks, its light dims to invisibility.
Mira is one of the most dramatic variable stars, but it’s hardly alone in changing size and light output. When stars reach the final stages of life, they swell to giant size. That larger size coupled with the same mass means the gravity at the star’s surface is much less. Meanwhile, the energy output from fusion in the core pushes material outward. The balance between these influences shifts, pushing the star’s surface outward and pulling it back. In some cases the entire star changes in size, while in others a part of the star may grow while another part contracts, with the star alternating which part does which. In all these cases, the light from the star changes with the pulsations.
For some stars, known as Cepheid variables, variations are very regular in period and in the amount of light they produce: the longer the period of pulsation, the brighter the star. This “period-luminosity relation” was first identified by Harvard College astronomer Henrietta Swan Leavitt in the early 1900s. Knowing a Cepheid’s period of variability allows astronomers infer its distance, so astronomers ever since have used this information to measure distances within the Milky Way and to nearby galaxies.
Other variable stars are less predictable, erupting in giant stellar storms. Unlike pulsating stars, many of these eruptive variables are young, and their energetic outbursts come because they are still collecting matter onto themselves. Older stars may erupt for similar reasons to pulsations: gravity is no longer strong enough to hold all of the star’s material in against the outward flow of energy, leading to huge outbursts of matter.
Dance of the Demon
Like Mira, the fluctuating star Algol — meaning “demon” in Arabic — was first identified in antiquity. However, Algol’s brightness doesn’t change as dramatically, and the reason for the variation is very different: Algol is actually two stars in mutual orbit. The periodic dimming comes when one star eclipses the other.
Many stars are in binary or multiple systems: two or more stars in mutual orbit. Like Algol, a lot of these systems are too close together to be distinguished as multiple stars even with a telescope. However, their orbits can often be measured through the Doppler effect: the shifts in the color of light created as they move toward and away from us. That information gives us the masses of the stars in the system, information that’s difficult to obtain for isolated stars.
The life of a single star is dictated by its mass, but in a binary, the stars can influence each other’s evolution strongly. If they are close together, the gravitational tidal force can change each star’s shape and size. Stars in binaries can exchange matter with each other, and alter each other’s spin. That can have a profound effect on the life cycle of the individual stars in the binary, compared with stars existing in isolation.
- Stellar Astronomy
- The Energetic Universe
- The Milky Way Galaxy
- Extragalactic Astronomy
- Computational Astrophysics
- Theoretical Astrophysics
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