Near the beginning of 2020, scientists with
the Canadian Hydrogen Intensity Mapping Experiment
(CHIME) released a paper which announced an
interesting discovery. Not only was the earth
receiving far more FRB’s than previously
thought, they had observed that FRB 180916.J0158+65
was repeating every 16.35 days.
FRBs or fast radio bursts are sudden large
pulses of radiation that erupt from somewhere
outside our galaxy. Though they last for fractions
of a second, they expend an immense amount
of energy, maybe as much as hundreds of millions
of Suns.
Imagine that you are standing on your roof,
and in a city a 1,000 miles (1,609 km) away
from you, your friend is also standing on
their roof. Your friend quickly shouts ‘Hi!’
to signal you. Think about how loud they would
have to shout for you to hear--not only are
you far away, but there’s obstacles--buildings
that may block or bounce sound. Also there’s
traffic and a lot of other noise pollution
between you two. Now scale this communication
scenario up a bazillion times and you have
a sense of just how much radiation an FRB
has to emit for our radio telescopes on earth
to detect it.
Space is a surprisingly noisy place, not sound
wise, but in terms of celestial bodies giving
off energy. NASA has actually recorded a number
of emissions such as radio waves from the
sun’s corona or Jupiter’s magnetic fields.
Since we first discovered FRBs in 2007, we’ve
made it a point to specifically listen for
them. So far, we’ve detected 150 emissions,
out of those, only 11 have repeated. The rest
have been one offs that have come from different
directions and from various galaxies.
Research shows that for some of the repeating
FRBs, with each cluster of repetition the
signal experiences frequency drift and gets
weaker. After a few repeats the signals seem
to vanish. Actually, that doesn’t necessarily
mean the signal stopped, it just that many
have become faint or lost among all the other
noise the telescope has picked up. This suggests
that some of what we consider to be one off
FRBs probably repeat too, we just don’t
detect the repetition. One researcher has
described FRBS as massive at their source,
but the strength of the signal reaching Earth
is 1,000 times weaker than a signal from a
mobile phone broadcasting from the Moon.
In fact some researchers suggest that earth
is receiving thousands of FRBs a day--we simply
don’t notice because we’re only looking
at small regions of the sky for short periods
of time and our telescopes aren't (yet!) sensitive
enough to detect everything.
Excitingly, the signals for FRB 180916.J0158+65
have remained fairly consistent. After a year
of observation, researchers were able to confirm
that FRB 180916.J0158+65 has a distinct pattern
where over the course of four days, the signal
would release a burst or two each hour. Then,
it would go silent for another 12 days and
repeat. 28 separate clusters of signal bursts
were recorded from September 16, 2018 through
October 30, 2019 for a total of 409 days.
Interestingly, each burst of signals have
been different. As of yet, there’s been
no discernable repeating or overlap of the
signal. However, there are enough similarities
between the flares to suggest that they are
part of a single repeating pattern.
Currently, researchers only have been able
to pinpoint the location of where eight FRBs
originated from, including 180916.J0158+65.
This FRB is coming from the edges of nearby
spiral galaxy SDSS J015800.28+654253.0--yeah,
another catchy name--which according to scientists
is similar to our Milky Way. Unfortunately,
by the term nearby we mean 457 million light-years
away from our solar system.
However, by far it’s the closest FRB we’ve
discovered; the first repeating FRB traced,
FRB 121102, originates in a small dwarf galaxy
with a high rate of star formation some three
billion light-years from Earth.
To answer the question probably buzzing through
your brain right now--Are FRBS, and this FRB
in particular, aliens attempting to contact
us? The simple answer is possibly...FRBS are
quite mysterious; currently scientists can
only speculate about what causes them, so
we can’t entirely discount the fact that
aliens are signaling us directly or pinging
the universe, possibly hoping to find signs
of intelligent life.
However, it’s kind of unlikely that the
radiation emissions would be produced by aliens.
If you’re a highly intelligent life form
who eons ago--remember the energy from FRB
180916.J0158+65 is taking some 457 million
years to reach us, had the capacity to build
one or more huge, probably solar powered transmitting
devices that can hurtle immense amounts of
radio waves into space to hopefully signal
your neighbors and alert then to the fact
that you exist, wouldn’t you send the same
message several times so that you could make
contact and be clearly understood?
Sending different signal bursts or messages
each time would be kind of like at the same
time each day dialing a random phone number
for another country out of a directory and
letting it ring once before hanging up and
doing that over and over again to try to communicate
with other people.
Of course, on the other hand there is a chance
that the aliens are intellectually superior
to us and they are sending a a distinct message
with FRB 180916.J0158+65, but we humans are
too dumb to figure it out. Even if the FRB
was sent by aliens, unfortunately their civilization
is already lost to time since the bursts have
taken close to 500 million light years to
reach earth.
More likely than aliens, FRBs are caused by
a particular celestial event. Since FRBs last
only milliseconds, researchers think their
sources might be small, celestial objects
only a few hundred kilometers across.
Currently, one theory about the creation of
FRBs that researchers are exploring is that
FRBs are flares from dying stars known as
"blitzars”. As a blitzar exhausts its nuclear
fuel and collapses when it can no longer support
its weight, it spews radiation.
Another theory is that FRBs are caused by
the interaction between neutron stars and
early OB-type star binary systems. Neutron
stars are the remnants of supernovae. Diameter
wise, they aren’t particularly large, maybe
the size of a large city such as Chicago,
but they are extremely dense, with masses
much heavier than our sun. OB-type stars are
short-lived, hot, massive, bright burning
stars. The interaction between these two heavenly
bodies, and the wind coming off of the OB-type
star, could create radiation spikes.
Yet, another theory is that FRBs are created
by magnetars--rare neutron stars with incredibly
powerful magnetic fields. Astronomers have
observed magnetars suddenly flaring in an
immense burst. Possibly these bursts are caused
by starquakes, a sudden disturbance of the
magnetars’ structures that releases built-up
stresses from their swirling magnetic fields.
Some of the energy is most likely expressed
as radio waves.
While a sudden random, cataclysmic event such
as star collapse or starquake makes sense
in terms of causing a non repeating FRB, it
doesn’t quite make sense for repeating FRBS
such as 180916.J0158+65. The implication being
that if this FRB repeats on a regular basis,
something has to be controlling the cycle.
One of the theories postulated by the scientists
who authored the paper is that the FRB is
being modulated by an orbital motion. The
area the FRB originated from is a star-forming
region just outside the main galaxy--perhaps
the FRB is caused by interaction between a
star and a stellar-mass black hole.
Or the waves could be giant radio pulses from
a very active neutron star that is being eclipsed
by a companion object. When the celestial
object isn’t being obscured, it transmits
toward earth.
It’s far less likely, but possible that
the source for this repeating FRB is a single
celestial object such as a magnetar or X-ray
pulsar. Researchers find the data they’ve
parsed doesn’t really support this theory.
Both magnetars and pulsars have a wobbling
rotation that produces periodicity, however,
none are known to wobble that slowly. Also,
yes, there’s a slight chance that aliens
could be using their device to transmit at
the same time in some sort of cycle only known
to them.
For FRB 180916.J0158+65 scientists have a
long term chance to study the signal clusters
to figure out exactly what causes the energy
bursts. This may provide insight for figuring
out patterns, behaviors and root causes of
other FRBs and ultimately help researchers
gain a clearer understanding of our universe.
And now that you've reached the end of our
video, why not keep the watch party going?!
Remember that time scientists discovered a
colliding galaxy that looked like death? Click
here to learn more:
Or if you maybe you’d like to know about
how astronauts almost got stuck on the moon:
Or go down a black hole (tee-hee) and watch
them both!
