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| An artist's impression of a comet flying through space trailed by twin streams of gas and dust. (Image credit: Shutterstock) |
A bizarre, volcanic comet has violently erupted, spewing out more than 1
million tons of gas, ice and the "potential building blocks of life" into
the solar system.
The volatile comet, known as 29P/Schwassmann-Wachmann (29P), is around 37
miles (60 kilometers) wide and takes around 14.9 years to orbit the sun. 29P
is believed to be the most volcanically active comet in the solar system. It
is one of around 100 comets, known as "centaurs," that have been pushed from
the Kuiper Belt — a ring of icy comets that lurk beyond Neptune — into a
closer orbit around the sun between those of Jupiter and Neptune,
according to NASA.
On Nov. 22, an amateur astronomer named Patrick Wiggins noticed that 29P had
drastically increased in brightness, according to
Spaceweather.com. Subsequent observations made by other astronomers revealed that this
spike in luminosity was the result of a massive volcanic eruption — the
second largest seen on 29P in the last 12 years, according to the
British Astronomical Association (BAA). The largest eruption during this time was a huge outburst in
September 2021.
An eruption of this size is "pretty rare,"
Cai Stoddard-Jones, a doctoral candidate at Cardiff University in the U.K. who took a
follow-up image of 29P's eruption, told Live Scence. "It's [also] difficult
to say why this one is so big.".
The explosion was followed by two smaller outbursts on Nov. 27 and Nov. 29,
according to BAA.
Unlike volcanoes on Earth, which eject scalding-hot magma and ash from the
mantle, 29P spits out extremely cold gases and ice from its core. This
unusual type of volcanic activity is known as cryovolcanism, or "cold
volcanism."
Cryovolcanic bodies, which include a handful of other comets and moons in
the solar system such as Saturn's Enceladus, Jupiter's Europa and Neptune's
Triton, have a surface crust surrounding a mainly solid icy core, Richard
Miles, a BAA astronomer who has studied 29P, told Live Science. Over time,
radiation from the sun can cause the comets' icy interiors to sublime from
solid to gas, which causes a buildup of pressure beneath the crust. When
radiation from the sun also weakens the crust, that pressure causes the
outer shell to crack, and cryomagma shoots out into space.
The cryomagma from comets like 29P is mainly composed of carbon monoxide and
nitrogen gas, as well as some icy solids and liquid hydrocarbons, which "may
have provided some of the raw materials from which life originated on
Earth," NASA representatives wrote.
The ejecta from the most recent eruption of 29P stretched up to 34,800 miles
(56,000 km) away from the comet and is traveling at speeds of up to 805 mph
(1,295 km/h), according to BAA. The plume "probably comprised more than one
million tons of ejecta," Miles added.
Photographs of the erupting comet also show that the plume formed an
irregular Pac-Man-like shape, which suggests the eruption originated from a
single point or region on the comet's surface, according to
Spaceweather.com.
These observations back up previous research that suggests 29P's eruptions
are linked to its rotation. Miles and Stoddard-Jones believe that the
comet's slower rotation causes solar radiation to absorb more unevenly on
the comet, triggering the eruptions. So far eruptions from the comet tend to
match up with its 57-day rotation period, the researchers said.
Researchers also suspect that 29P's most explosive eruptions follow a cycle
based on its orbit around the sun. A number of large eruptions were detected
between 2008 and 2010, and now two massive explosions have occurred within the
last two years, Miles said. It is therefore likely that there will be least
one more major eruption from 29P by the end of 2023, he added.
However, it is less clear how this longer eruption cycle is occurring,
because unlike most other comets, which get closer to the sun during a
specific period of their orbits, 29P has a largely circular orbit, meaning
it never gets much closer to the sun than its average distance,
Stoddard-Jones said.
29P has largely been ignored by the astronomical community since its
discovery in 1927, but as new evidence emerges about its unusual volcanic
activity it is starting to be taken more seriously, Miles said. "Clearly
there is something new to be discovered in studying 29P."
The James Webb Space Telescope is scheduled to take a closer look at 29P
early next year, he added.
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Space & Astrophysics