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Tuesday, December 12, 2017
Alien Probe or Galactic Driftwood? SETI Tunes In to 'Oumuamua
It’s
a long shot, but scientists are about to listen very closely for radio
signals from our solar system’s first known interstellar visitor
By Lee Billings on December 11, 2017
This
artist's concept depicts the interstellar visitor known as 'Oumuamua as
a battered metallic space rock. Some astronomers, however, speculate
that 'Oumuamua may be something far stranger. Credit: ESO/M. Kornmesser
Ever since its discovery
in mid-October as it passed by Earth already outbound from our solar
system, the mysterious object dubbed ‘Oumuamua (Hawaiian for “first
messenger”) has left scientists utterly perplexed. Zooming down almost
perpendicularly inside Mercury’s orbit at tens of thousands of
kilometers per hour—too fast for our star’s gravity to catch—‘Oumuamua
appeared to have been dropped in on our solar system from some great
interstellar height, picking up even more speed on a slingshot-like loop
around the sun before soaring away for parts unknown. It is now already
halfway to Jupiter, too far for a rendezvous mission and rapidly fading
from the view of Earth’s most powerful telescopes.
Astronomers scrambling to glimpse the fading object have revealed additional oddities.
‘Oumuamua was never seen to sprout a comet-like tail after getting
close to the sun, hinting it is not a relatively fresh bit of icy
flotsam from the outskirts of a nearby star system. This plus its deep
red coloration—which mirrors that of some cosmic-ray-bombarded objects
in our solar system—suggested that ‘Oumuamua could be an asteroid from
another star. Yet those same observations also indicate ‘Oumuamua might
be shaped rather like a needle, up to 800 meters long and only 80 wide,
spinning every seven hours and 20 minutes. That would mean it is like no
asteroid ever seen before, instead resembling the collision-minimizing
form favored in many designs for notional interstellar probes. What’s
more, it is twirling at a rate that could tear a loosely-bound rubble
pile apart. Whatever ‘Oumuamua is, it appears to be quite solid—likely
composed of rock, or even metal—seemingly tailor-made to weather long
journeys between stars. So far there are few if any wholly satisfactory
explanations as to how such an extremely elongated solid object could
naturally form, let alone endure the forces of a natural high-speed
ejection from a star system—a process thought to involve a wrenching
encounter with a giant planet.
These bizarre characteristics have raised eyebrows among professional
practitioners of SETI, the search for extraterrestrial intelligence,
who use large radio telescopes to listen for interstellar radio
transmissions from other cosmic civilizations. If ‘Oumuamua is in fact
artificial, the reasoning goes, it might be transmitting or at least
leaking radio waves.
So far limited observations of ‘Oumuamua, using facilities such as the SETI Institute’s Allen Telescope Array, have turned up nothing.
But this Wednesday at 3 p.m. Eastern time, the Breakthrough Listen
project will aim the West Virgina-based 100-meter Green Bank Telescope
at ‘Oumuamua for 10 hours of observations in a wide range of radio
frequencies, scanning the object across its entire rotation in search of
any signals. Breakthrough Listen is part of billionaire Yuri Milner’s Breakthrough Initiatives
program, a collection of lavishly-funded efforts aiming to uncover
evidence of life elsewhere in the universe. Other projects include Breakthrough Starshot, which intends to develop and launch interstellar probes, as well as Breakthrough Watch, which would use large telescopes to study exoplanets for signs of life.
“With our equipment at Green Bank, we can detect a signal the
strength of a mobile phone coming out of this object,” Milner says. “We
don’t want to be sensational in any way, and we are very realistic about
the chances this is artificial, but because this is a unique situation
we think mankind can afford 10 hours of observing time using the best
equipment on the planet to check a low-probability hypothesis.” Besides
being simply a search for signs of aliens, Breakthrough Listen’s efforts
could also narrow down the possibilities for ‘Oumuamua’s composition by
looking for signs of water vapor sublimating from any sun-warmed ice
lurking beneath the object’s red, desiccated surface.
Avi Loeb, an astrophysicist and Breakthrough advisor at Harvard
University who helped persuade Milner to pursue the observations, is
similarly pessimistic about prospects for uncovering aliens. There are,
he says, arguments against its artificial origins. For one thing, its
estimated spin rate seems too low to create useful amounts of
“artificial gravity” for anything onboard. Furthermore, ‘Oumuamua shows
no sign of moving due to rocketry or other technology, instead following
an orbit shaped by the gravitational force of the sun. Its speed
relative to the solar system (about 20 kilometers per second) also seems
rather slow for any interstellar probe, which presumably would cruise
at higher speeds for faster trips between stars. But that pace aligns
perfectly with those of typical nearby stars—suggesting ‘Oumuamua might
be merely a piece of galactic “driftwood” washed up by celestial currents.
Then again, Loeb says, “perhaps the aliens have a mothership that
travels fast and releases baby spacecraft that freely fall into
planetary system on a reconnaissance mission. In such a case, we might
be able to intercept a communication signal between the different
spacecraft.”
Several years ago Loeb and two colleagues performed a speculative calculation
estimating the interstellar abundance of ‘Oumuamua-sized space rocks
based on the density of stars in the Milky Way and the vagaries of
planet formation. That calculation, Loeb says, suggests the number of
such space rocks is at least a hundred thousand times too low to account
for ‘Oumuamua’s detection. Simply put, objects like ‘Oumuamua should be
far too rare for our current telescopes to have any reasonable chance
of spotting one. Newer studies gauging the odds find that for ‘Oumuamua’s detection to not be an astronomically unlikely fluke, there must be a sizeable population
of such objects continuously passing through our solar system. This in
turn suggests that more-capable future observatories, such as the Large
Synoptic Survey Telescope, will find many more when they begin
operations in the 2020s.
“Typically in astronomy we don’t see things that are rare—if we see
one, that means there’s a lot more out there,” says Breakthrough
Listen’s lead scientist Andrew Siemion, who is also director of the
Berkeley SETI Research Center. “So, while this is most likely a natural
object, if we don’t eventually see any more, that would indeed be very
strange and would increase interest from a SETI perspective.”
Either way, Siemion says, “‘Oumuamua’s presence within our solar
system affords Breakthrough Listen an opportunity to reach unprecedented
sensitivities to possible artificial transmitters and demonstrate our
ability to track nearby, fast-moving objects. Whether this object turns
out to be artificial or natural, it’s a great target.”
And if, against all odds, the Green Bank Telescope detects signals
from this mysterious interstellar interloper—what happens then?
Breakthrough Listen’s leaders assure us they would keep no secrets.
First, the team at Green Bank would immediately re-observe ‘Oumuamua to
confirm the signal. Next, they would reach out to astronomers around the
world who could target the object with other radio telescopes. “We
quite literally have a little Rolodex just for that,” Siemion says. “And
at that moment this would become public. There’s no way to keep
something like this a secret, because it requires us calling everyone we
can. We tend not to ‘cry wolf’ about these things.”