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A galaxy is a massive, gravitationally bound system
that consists of stars and stellar remnants, an interstellar medium of gas and dust, and an important but poorly understood
component tentatively dubbed dark matter. The name is from the Greek root galaxias, meaning "milky," a reference
to the Milky Way galaxy. Typical galaxies range from dwarfs with as few as ten million stars up to giants with a hundred trillion
stars, all orbiting the galaxy's center of mass. Galaxies may contain many multiple star systems, star clusters, and various
interstellar clouds. The Sun is one of the stars in the Milky Way galaxy; the Solar System includes the Earth and all the
other objects that orbit the Sun.
Historically,
galaxies have been categorized according to their apparent shape (usually referred to as their visual morphology). A common
form is the elliptical galaxy, which has an ellipse-shaped light profile. Spiral galaxies are disk-shaped assemblages with
dusty, curving arms. Galaxies with irregular or unusual shapes are known as irregular galaxies, and typically result from
disruption by the gravitational pull of neighboring galaxies. Such interactions between nearby galaxies, which may ultimately
result in galaxies merging, may induce episodes of significantly increased star formation, producing what is called a starburst
galaxy. Small galaxies that lack a coherent structure could also be referred to as irregular galaxies.
There are probably more than 170 billion galaxies
in the observable universe. Most galaxies are 1,000 to 100,000 parsecs in diameter and are usually separated by distances
on the order of millions of parsecs (or megaparsecs). Intergalactic space (the space between galaxies) is filled with a tenuous
gas of an average density less than one atom per cubic meter. The majority of galaxies are organized into a hierarchy of associations
called clusters, which, in turn, can form larger groups called superclusters. These larger structures are generally arranged
into sheets and filaments, which surround immense voids in the universe.
Although it is not yet well understood, dark matter appears to account for around 90% of the
mass of most galaxies. Observational data suggests that supermassive black holes may exist at the center of many, if not all,
galaxies. They are proposed to be the primary cause of active galactic nuclei found at the core of some galaxies. The Milky
Way galaxy appears to harbor at least one such object within its nucleus.
The word galaxy derives from the Greek term for our own galaxy, galaxias, or kyklos galaktikos, meaning "milky
circle" for its appearance in the sky. In Greek mythology, Zeus places his son born by a mortal woman, the infant Heracles,
on Hera's breast while she is asleep so that the baby will drink her divine milk and will thus become immortal. Hera wakes
up while breastfeeding and then realizes she is nursing an unknown baby: she pushes the baby away and a jet of her milk sprays
the night sky, producing the faint band of light known as the Milky Way.
In the astronomical literature, the capitalized word 'Galaxy' is used to refer to our galaxy, the Milky Way, to distinguish
it from the billions of other galaxies. The term Milky Way first appeared in the English language in a poem by Chaucer.
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Ellipticals
The Hubble classification system
rates elliptical galaxies on the basis of their ellipticity, ranging from E0, being nearly spherical, up to E7, which is highly
elongated. These galaxies have an ellipsoidal profile, giving them an elliptical appearance regardless of the viewing angle.
Their appearance shows little structure and they typically have relatively little interstellar matter. Consequently these
galaxies also have a low portion of open clusters and a reduced rate of new star formation. Instead they are dominated by
generally older, more evolved stars that are orbiting the common center of gravity in random directions. In this sense they
have some similarity to the much smaller globular clusters.
The
largest galaxies are giant ellipticals. Many elliptical galaxies are believed to form due to the interaction of galaxies,
resulting in a collision and merger. They can grow to enormous sizes (compared to spiral galaxies, for example), and giant
elliptical galaxies are often found near the core of large galaxy clusters. Starburst galaxies are the result of such a galactic
collision that can result in the formation of an elliptical galaxy.
Spirals
The Whirlpool Galaxy is an example
of an unbarred spiral galaxy.Spiral galaxies consist of a rotating disk of stars and interstellar medium, along with a central
bulge of generally older stars. Extending outward from the bulge are relatively bright arms. In the Hubble classification
scheme, spiral galaxies are listed as type S, followed by a letter (a, b, or c) that indicates the degree of tightness of
the spiral arms and the size of the central bulge. An Sa galaxy has tightly wound, poorly defined arms and possesses a relatively
large core region. At the other extreme, an Sc galaxy has open, well-defined arms and a small core region.
In spiral galaxies, the spiral arms do have the shape of
approximate logarithmic spirals, a pattern that can be theoretically shown to result from a disturbance in a uniformly rotating
mass of stars. Like the stars, the spiral arms rotate around the center, but they do so with constant angular velocity. The
spiral arms are thought to be areas of high density matter, or "density waves". As stars move through an arm, the
space velocity of each stellar system is modified by the gravitational force of the higher density. (The velocity returns
to normal after the stars depart on the other side of the arm.) This effect is akin to a "wave" of slowdowns moving
along a highway full of moving cars. The arms are visible because the high density facilitates star formation, and therefore
they harbor many bright and young stars.
NGC 1300, an example of a barred spiral galaxy.A majority of spiral
galaxies have a linear, bar-shaped band of stars that extends outward to either side of the core, then merges into the spiral
arm structure. In the Hubble classification scheme, these are designated by an SB, followed by a lower-case letter (a, b or
c) that indicates the form of the spiral arms (in the same manner as the categorization of normal spiral galaxies). Bars are
thought to be temporary structures that can occur as a result of a density wave radiating outward from the core, or else due
to a tidal interaction with another galaxy. Many barred spiral galaxies are active, possibly as a result of gas being channeled
into the core along the arms.
Our own galaxy is a large
disk-shaped barred-spiral galaxy about 30 kiloparsecs in diameter and a kiloparsec in thickness. It contains about two hundred
billion stars and has a total mass of about six hundred billion times the mass of the Sun.
Dwarfs
Despite the prominence of large elliptical and spiral galaxies, most galaxies in the universe appear to be dwarf galaxies.
These galaxies are relatively small when compared with other galactic formations, being about one hundredth the size of the
Milky Way, containing only a few billion stars. Ultra-compact dwarf galaxies have recently been discovered that are only 100
parsecs across.
Many dwarf galaxies may
orbit a single larger galaxy; the Milky Way has at least a dozen such satellites, with an estimated 300–500 yet to be
discovered. Dwarf galaxies may also be classified as elliptical, spiral, or irregular. Since small dwarf ellipticals bear
little resemblance to large ellipticals, they are often called dwarf spheroidal galaxies instead.
A study of 27 Milky Way neighbors found that dwarf galaxies were
all approximately 10 million solar masses, regardless of whether they have thousands or millions of stars. This has led to
the suggestion that galaxies are largely formed by dark matter, and that the minimum size may indicate a form of warm dark
matter incapable of gravitational coalescence on a smaller scale.
Starburst
M82, the archetype starburst galaxy, has experienced a 10-fold increase in star
formation rate as compared to a "normal" galaxy.Stars are created within galaxies from a reserve of cold gas that
forms into giant molecular clouds. Some galaxies have been observed to form stars at an exceptional rate, known as a starburst.
Should they continue to do so, however, they would consume their reserve of gas in a time frame lower than the lifespan of
the galaxy. Hence starburst activity usually lasts for only about ten million years, a relatively brief period in the history
of a galaxy. Starburst galaxies were more common during the early history of the universe, and, at present, still contribute
an estimated 15% to the total star production rate.
Starburst
galaxies are characterized by dusty concentrations of gas and the appearance of newly formed stars, including massive stars
that ionize the surrounding clouds to create H II regions. These massive stars produce supernova explosions, resulting in
expanding remnants that interact powerfully with the surrounding gas. These outbursts trigger a chain reaction of star building
that spreads throughout the gaseous region. Only when the available gas is nearly consumed or dispersed does the starburst
activity come to an end.
Starbursts are
often associated with merging or interacting galaxies. The prototype example of such a starburst-forming interaction is M82,
which experienced a close encounter with the larger M81. Irregular galaxies often exhibit spaced knots of starburst activity.
Other morphologies
Hoag's Object, an example
of a ring galaxy.Peculiar galaxies are galactic formations that develop unusual properties due to tidal interactions with
other galaxies. An example of this is the ring galaxy, which possesses a ring-like structure of stars and interstellar medium
surrounding a bare core. A ring galaxy is thought to occur when a smaller galaxy passes through the core of a spiral galaxy.
Such an event may have affected the Andromeda Galaxy, as it displays a multi-ring-like structure when viewed in infrared radiation.
A lenticular galaxy is an intermediate form
that has properties of both elliptical and spiral galaxies. These are categorized as Hubble type S0, and they possess ill-defined
spiral arms with an elliptical halo of stars. (Barred lenticular galaxies receive Hubble classification SB0.)
NGC
5866, an example of a lenticular galaxy. Credit: NASA/ESA.In addition to the classifications mentioned above, there are a
number of galaxies that can not be readily classified into an elliptical or spiral morphology. These are categorized as irregular
galaxies. An Irr-I galaxy has some structure but does not align cleanly with the Hubble classification scheme. Irr-II galaxies
do not possess any structure that resembles a Hubble classification, and may have been disrupted. Nearby examples of (dwarf)
irregular galaxies include the Magellanic Clouds.
Active
nucleus
A portion of the galaxies we can observe are classified as active. That is, a significant portion of the
total energy output from the galaxy is emitted by a source other than the stars, dust and interstellar medium.
The standard model for an active galactic nucleus is based upon an accretion disc that forms around
a supermassive black hole (SMBH) at the core region. The radiation from an active galactic nucleus results from the gravitational
energy of matter as it falls toward the black hole from the disc. In about 10% of these objects, a diametrically opposed pair
of energetic jets ejects particles from the core at velocities close to the speed of light. The mechanism for producing these
jets is still not well understood.
A jet of particles is being emitted from the core of the elliptical radio
galaxy M87.Active galaxies that emit high-energy radiation in the form of x-rays are classified as Seyfert galaxies or quasars,
depending on the luminosity. Blazars are believed to be an active galaxy with a relativistic jet that is pointed in the direction
of the Earth. A radio galaxy emits radio frequencies from relativistic jets. A unified model of these types of active galaxies
explains their differences based on the viewing angle of the observer.
Possibly
related to active galactic nuclei (as well as starburst regions) are low-ionization nuclear emission-line regions (LINERs).
The emission from LINER-type galaxies is dominated by weakly ionized elements. Approximately one-third of nearby galaxies
are classified as containing LINER nuclei.
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