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Sistem cincin raksasa di sekitar J1407b jauh lebih besar , lebih berat dari Saturnus
Para astronom telah menemukan bahwa sistem cincin yang mereka lihat - seperti bintang J1407 adalah proporsi yang sangat besar , jauh lebih besar dan lebih berat dari sistem cincin Saturnus .....read more
Gigantic ring
system around J1407b much larger, heavier than Saturn's
Date:
January 26, 2015
Source:
University of
Rochester
Summary:
Astronomers have
discovered that the ring system that they see eclipse the very young Sun-like
star J1407 is of enormous proportions, much larger and heavier than the ring
system of Saturn.
...........................
astronomers at the
Leiden Observatory, The Netherlands, and the University of Rochester, USA, have
discovered that the ring system that they see eclipse the very young Sun-like
star J1407 is of enormous proportions, much larger and heavier than the ring
system of Saturn. The ring system -- the first of its kind to be found outside
our solar system -- was discovered in 2012 by a team led by Rochester's Eric
Mamajek.
A new analysis of the data, led by Leiden's Matthew Kenworthy, shows that
the ring system consists of over 30 rings, each of them tens of millions of
kilometers in diameter. Furthermore, they found gaps in the rings, which
indicate that satellites ("exomoons") may have formed. The result has
been accepted for publication in the Astrophysical Journal.
"The details that we see in the light curve are incredible. The
eclipse lasted for several weeks, but you see rapid changes on time scales of
tens of minutes as a result of fine structures in the rings," says
Kenworthy. "The star is much too far away to observe the rings directly,
but we could make a detailed model based on the rapid brightness variations in
the star light passing through the ring system. If we could replace Saturn's
rings with the rings around J1407b, they would be easily visible at night and be
many times larger than the full moon."
"This planet is much larger than Jupiter or Saturn, and its ring
system is roughly 200 times larger than Saturn's rings are today," said
co-author Mamajek, professor of physics and astronomy at the University of
Rochester. "You could think of it as kind of a super Saturn."
The astronomers analyzed data from the SuperWASP project -- a survey that
is designed to detect gas giants that move in front of their parent star. In
2012, Mamajek and colleagues at the University of Rochester reported the
discovery of the young star J1407 and the unusual eclipses, and proposed that
they were caused by a moon-forming disk around a young giant planet or brown
dwarf.
In a third, more recent study also led by Kenworthy, adaptive optics and
Doppler spectroscopy were used to estimate the mass of the ringed object. Their
conclusions based on these and previous papers on the intriguing system J1407
is that the companion is likely to be a giant planet -- not yet seen -- with a
gigantic ring system responsible for the repeated dimming of J1407's light.
The light curve tells astronomers that the diameter of the ring system is
nearly 120 million kilometers, more than two hundred times as large as the
rings of Saturn. The ring system likely contains roughly an Earth's worth of
mass in light-obscuring dust particles.
Mamajek puts into context how much material is contained in these disks and
rings. "If you were to grind up the four large Galilean moons of Jupiter
into dust and ice and spread out the material over their orbits in a ring
around Jupiter, the ring would be so opaque to light that a distant observer
that saw the ring pass in front of the sun would see a very deep, multi-day
eclipse," Mamajek says. "In the case of J1407, we see the rings blocking
as much as 95 percent of the light of this young Sun-like star for days, so
there is a lot of material there that could then form satellites."
In the data the astronomers found at least one clean gap in the ring
structure, which is more clearly defined in the new model. "One obvious
explanation is that a satellite formed and carved out this gap," says
Kenworthy. "The mass of the satellite could be between that of Earth and
Mars. The satellite would have an orbital period of approximately two years around
J1407b."
Astronomers expect that the rings will become thinner in the next several
million years and eventually disappear as satellites form from the material in
the disks.
"The planetary science community has theorized for decades that
planets like Jupiter and Saturn would have had, at an early stage, disks around
them that then led to the formation of satellites," Mamajek explains.
"However, until we discovered this object in 2012, no-one had seen such a
ring system. This is the first snapshot of satellite formation on
million-kilometer scales around a substellar object."
Astronomers estimate that the ringed companion J1407b has an orbital period
roughly a decade in length. The mass of J1407b has been difficult to constrain,
but it is most likely in the range of about 10 to 40 Jupiter masses.
The researchers encourage amateur astronomers to help monitor J1407, which
would help detect the next eclipse of the rings, and constrain the period and
mass of the ringed companion. Observations of J1407 can be reported to the
American Association of Variable Star Observers (AAVSO). In the meantime the
astronomers are searching other photometric surveys looking for eclipses by yet
undiscovered ring systems.
Kenworthy adds that finding eclipses from more objects like J1407's
companion "is the only feasible way we have of observing the early
conditions of satellite formation for the near future. J1407's eclipses will
allow us to study the physical and chemical properties of satellite-spawning
circumplanetary disks."
Story Source:
The above story is based on materials provided by University of Rochester. Note: Materials may be edited
for content and length.
