10 | New Scientist | 14 September 2019AFTER decades of dodgy special
effects and artist’s impressions,
the world got its first look at a real
black hole in April. The image
(right) quickly spread around the
globe, hitting the front pages of
many newspapers. It shows an
ethereal ring of orange light
around the supermassive black
hole at the heart of the M87 galaxy,
55 million light years from Earth.
It was taken using the combined
power of eight radio observatories
around the world by the Event
Horizon Telescope (EHT) team.
The international group of
387 scientists who took the imagehas now been awarded the
$3 million Special Breakthrough
Prize in Fundamental Physics
in recognition of its work. New
Scientist spoke with the leader of
the collaboration, Shep Doeleman
at Harvard University.First things first: how does the
EHT work?
It basically turns Earth into a
telescope. We do that by using
radio dishes across the globe that
all look at the same black hole at
the same time. Then, we take the
hard drives from those telescopes
and fly them to one place and use
a supercomputer to line up all the
data. When you do that, it’s like
having a telescope as big as Earth.How did it feel to see that image
of a black hole for the first time?
It was jaw-dropping. It came in
waves for us. We first started
looking at the data that we hadgathered in 2017, and we just saw
the raw data in graphs. But even
there, we could see signs of what
might have been a silhouette of a
black hole. We split up into four
different groups and each
analysed the data separately.
When we came together and saw
that all four teams had seen this
ring, that’s when we began to
exhale. We knew that we had it.What do you think is the importance
of the image?
It is destined to be iconic,
I think, just because it was the
first time that we’ve seen a black
hole, and seeing is believing.
We were focused on the science,
but it was the resonance of the
image across the globe with a
curious public that rocked us
a little bit on our heels.
Scientifically, the first thing that
we have done with it is to confirm
that Einstein’s theory of gravity
holds, to the precision of our
measurements, right up to the
very edge of a supermassive black
hole. We have also started to
understand black hole accretion.
Do black holes eat voraciously, dothey eat timidly, how do they send
out their jets? We’ve started to
understand these things.What’s next for the EHT?
Scientists are never satisfied and
the EHT is no exception. What
we’re focusing on now is building
out the telescope array so we can
try to make videos that show us
dynamically how matter orbits
the black hole. We think that
understanding how these black
holes eat, live, exist over time iscrucial to understanding these
monsters and how galaxies
interact with them.
So we are focusing on building
new dishes and maybe even
launching telescopes into space.
In 20 years, I think that we will
have space-based platforms, so
that the EHT will not be limited
by the size of Earth, which will
sharpen our images. I think
we’re entering an era of precision
imaging of black holes.Why is that so important?
There are no deeper questions in
the universe than how black holes
work. That is because we know
that, at their heart, they contain
a mystery – of how gravity and
quantum mechanics work
together. This is the deepest
question there is right now.How do you feel about the prize?
I know the whole team feels this
sense of accomplishment. To have
our peers recognise our work, to
have a prize like the Breakthrough
Prize recognise it, means that it’s
not just that we think we did
something important – the whole
world feels it. I couldn’t be more
proud of the team. I just couldn’t
be more proud. ❚Supermassive honour
Interview Shep DoelemanNews
The astronomers who took the first ever photo of a black hole have won
a $3 million Breakthrough Prize. Leah Crane spoke to the team’s leaderResearchers from around the
world have been awarded a total
of more than $20 million in this
year’s Breakthrough Prizes. The
physics winner was the team
behind the Event Horizon
Telescope (see main interview).
There were four winners in
the life sciences, each picking
up $3 million. They include
Jeffrey Friedman at Rockefeller
University in New York, who
discovered how we regulate body
fat genetically and hormonally in- This has led to a greater
understanding of obesity.
Also rewarded was David Julius
at the University of California, San
Francisco, who found mechanisms
through which we experience
pain, and Virginia Man-Yee Lee at
the University of Pennsylvania, for
identifying important proteins in
dementia and Alzheimer’s.
The Breakthrough Prize in
Mathematics went to Alex Eskin
at the University of Chicago. He
worked with the late Maryam
Mirzakhani on the dynamics
and geometry of a complicated
mathematical construct called
moduli space.And the other winners are...
Shep
Doeleman,
head of
the Event
Horizon
Te le s co p eSTEPHANIE MITCHELL/HARVARD
EHT COLLABORATION