Astronomers using the Atacama Large Millimeter/submillimeter Array
(ALMA) may have detected the dusty hallmarks of an entire family of
Pluto-size objects swarming around an adolescent version of our own Sun.
By making detailed observations of the protoplanetary disk
surrounding the star known as HD 107146, the astronomers detected an
unexpected increase in the concentration of millimeter-size dust grains
in the disk's outer reaches. This surprising increase, which begins
remarkably far -- about 13 billion kilometers -- from the host star, may
be the result of Pluto-size planetesimals stirring up the region,
causing smaller objects to collide and blast themselves apart.
Dust in debris disks typically consists of material left over from
the formation of planets. Very early in the lifespan of the disk, this
dust is continuously replenished by collisions of larger bodies, such as
comets and asteroids. In mature solar systems with fully formed
planets, comparatively little dust remains. In between these two ages --
when a solar system is in its awkward teenage years -- certain models
predict that the concentration of dust would be much denser in the most
distant regions of the disk. This is precisely what ALMA has found.
"The dust in HD 107146 reveals this very interesting feature -- it
gets thicker in the very distant outer reaches of the star's disk," said
Luca Ricci, an astronomer at the Harvard-Smithsonian Center for
Astrophysics (CfA), and lead author on a paper accepted for publication
in the Astrophysical Journal. At the time of the observations, Ricci was
with the California Institute of Technology.
"The surprising aspect is that this is the opposite of what we see in
younger primordial disks where the dust is denser near the star. It is
possible that we caught this particular debris disk at a stage in which
Pluto-size planetesimals are forming right now in the outer disk while
other Pluto-size bodies have already formed closer to the star," said
Ricci.
According to current computer models, the observation that the
density of dust is higher in the outer regions of the disk can only be
explained by the presence of recently formed Pluto-sized bodies. Their
gravity would disturb smaller planetesimals, causing more frequent
collisions that generate the dust ALMA sees.
The new ALMA data also hint at another intriguing feature in the
outer reaches of the disk: a possible "dip" or depression in the dust
about 1.2 billion kilometers wide, beginning approximately 2.5 times the
distance of the Sun to Neptune from the central star. Though only
suggested in these preliminary observations, this depression could be a
gap in the disk, which would be indicative of an Earth-mass planet
sweeping the area clear of debris. Such a feature would have important
implications for the possible planet-like inhabitants of this disk and
may suggest that Earth-size planets could form in an entirely new range
of orbits than have ever been seen before.
The star HD 107146 is of particular interest to astronomers because
it is in many ways a younger version of our own Sun. It also represents a
period of transition from a solar system's early life to its more
mature, final stages where planets have finished forming and have
settled into their final orbits around their host star.
"This system offers us the chance to study an intriguing time around a
young, Sun-like star," said ALMA Deputy Director and coauthor Stuartt
Corder. "We are possibly looking back in time here, back to when the Sun
was about 2 percent of its current age."
The star HD 107146 is located approximately 90 light-years from Earth
in the direction of the constellation Coma Berenices. It is
approximately 100 million years old. Further observations with ALMA's
new long-baseline, high-resolution capabilities will shed more light on
the dynamics and composition of this intriguing object.
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