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Paul Sutter

Paul M. Sutter is an astrophysicist at SUNY Stony Brook and the Flatiron Institute in New York City. Paul received his PhD in Physics from the University of Illinois at Urbana-Champaign in 2011, and spent three years at the Paris Institute of Astrophysics, followed by a research fellowship in Trieste, Italy, His research focuses on many diverse topics, from the emptiest regions of the universe, to the earliest moments of the Big Bang, to the hunt for the first stars. As an "Agent to the Stars," Paul has passionately engaged the public in science outreach for several years. He is the host of the popular "Ask a Spaceman!" podcast, author of "Your Place in the Universe" and "How to Die in Space," and frequently appears on TV.

Articles by: Paul Sutter

In string theory, tiny bits of string replace traditional subatomic particles.

Putting string theory to the test

By Paul Sutter

String theory hopes to be a literal theory of everything — a powerful idea that could completely revolutionize our understanding of the physical world. But it has never been directly tested.

The Cryogenic Dark Matter Search is one of the most sensitive efforts to track down dark matter particles. But the best dark-matter detector may be Earth itself, a new study suggests.

Hunting for dark matter — inside the Earth

By Paul Sutter

The answer to the dark-matter mystery may be under our feet.

x-class solar flare april 24, 2014

The sun has an 'Old Faithful' geyser made of plasma

By Paul Sutter

The sun is a roiling, boiling ball of plasma, constantly churning and turning itself inside out.

Artist's illustration of the three planets and two stars in the Kepler-47 system, which lies 3,340 light-years from Earth.

How common are Tatooine worlds?

By Paul Sutter

Double sunsets may be just as common in our galaxy as the solitary kind that we know on Earth, and this has big implications for our search for life outside the solar system.

In string theory, tiny bits of string replace traditional subatomic particles.

String theory vs. M-theory: A showdown to explain our universe

By Paul Sutter

The five main string-theory candidates may all just be pieces of a larger, cohesive whole — and M-theory could bring them together.

Artist's illustration of a black hole.

Is life possible around black holes?

By Paul Sutter

A new research paper has found a new potential type of abode for life: a rocky planet orbiting just past the event horizon of a rapidly spinning supermassive black hole.

How has dark energy shaped our universe?

Did dark energy cause the Big Bang?

By Paul Sutter

As far as cosmologists can tell, the mysterious force behind the accelerated expansion of the universe, a force that we call dark energy, remains constant. But it may not have done so in the past.

Astronomers haven't found any exoplanets with rings, but researchers have found weirdly puffy alien worlds. What if they're one and the same?

'Superpuff' alien worlds could be ringed giant planets just like Saturn

By Paul Sutter

All four outer planets in our solar system sport at least a few rings, but so far, we haven't observed any such features around exoplanets. That's confusing.

A NASA camera aboard the Deep Space Climate Observatory satellite caught this view of Africa and the entire sunlit side of Earth on July 9, 2015.

Can a rogue star kick Earth out of the solar system?

By Paul Sutter

Earth is safe from such a catastrophe — almost.

Could the universe have more dimensions than we realize?

How the universe could possibly have more dimensions

By Paul Sutter

String theory is a purported theory of everything that physicists hope will one day explain … everything.

A visualization of the filaments in the cosmic web. Simulation produced by the EAGLE project.

How dark is the cosmic web?

By Paul Sutter

A dark web ties the universe together. Now, we can see it.

A Higgs boson decays in this collision recorded by the ATLAS detector on May 18, 2012.

Supersymmetry is super-awesome. Here's what it means for particle physics.

By Paul Sutter

But also super-mysterious.

A prism splits white light into light of every different color.

How rainbow-chasing chemists put the twinkle in modern astronomy's eye

By Paul Sutter

Life for the 19th-century astronomer was kind of monotonous, 200 years after Galileo's revolutionary work with the telescope.

White dwarfs are tightly compressed balls of glowing gas left after some stars die.

To find alien life, we should focus on white dwarf stars

By Paul Sutter

As far as we can tell, we're alone. But it could be that we're looking in the wrong places.

abstract illustration of a subatomic particle

Oddball sexaquark particles could be immortal, if they exist at all

By Paul Sutter

These supremely stable particles could explain dark matter.

Distant, ancient galaxies could help scientists understand how the universe turned back into plasma.

When did the universe 'wake up'?

By Paul Sutter

It was a big moment for our cosmos when the first stars awoke, but it's an elusive one for scientists.

Abstract background, quantum physics, wave function

The quantum world may have a favorite flavor, tantalizing results suggest

By Paul Sutter

The world of the teensy-tiny, the quantum realm, could have a favorite flavor. Here's why that's a big deal.

How does the strong force work?

Why string theory persists — despite the knotty physics

By Paul Sutter

String theory is a powerful idea, unfinished and untested, but one that has persisted for decades despite inauspicious beginnings.

The galaxy cluster Abell 1689 is famous for the way it bends light in a phenomenon called gravitational lensing. Study of the cluster has revealed secrets about how dark energy shapes the universe.

The problems with modern physics

By Paul Sutter

Physicists have certainly achieved a lot, but many mysteries about the universe remain.

An abstract image of axion strings, which may have made up the "axiverse."

The Universe May Be Flooded with a Cobweb Network of Invisible Strings

By Paul Sutter

What if I told you that our universe was flooded with hundreds of kinds of nearly invisible particles and that, long ago, these particles formed a network of universe-spanning strings?

The Large Magellanic Cloud (LMC), one of the Milky Way's closest galactic neighbors, gets a close-up in this image from the European Southern Observatory's VISTA telescope at the Paranal Observatory in Chile.

Cosmic Rays Are Starting to Tear a Milky Way Satellite Galaxy Apart

By Paul Sutter

Researchers recently released simulations of the Large Magellanic Cloud — a satellite galaxy of the Milky Way — and found that cosmic rays from a starburst event are starting to rip it apart.

The fully assembled James Webb Space Telescope with its sunshield and “unitized pallet structures” (which fold up around the telescope for launch) are seen partially deployed to an open configuration to enable telescope installation.

What's the Point of the James Webb Space Telescope?

By Paul Sutter

If we want to learn new things about everything from the first galaxies to the chance for life on other planets, the James Webb is our only hope.

A NASA illustration shows a neutron star surrounded by a disk of matter.

The Most Energetic Flashes of Light in the Universe Produce Deadly Nuclear Reactions

By Paul Sutter

Gamma-ray bursts are even worse than we thought.

An artist's illustration of the asteroid belt.

The Asteroids Might Remember a Forgotten Giant Planet

By Paul Sutter

We have much to learn from the rocks of the asteroid belt.

An artist's illustration of two black holes merging and creating ripples in spacetime known as gravitational waves.

The Universe Remembers Gravitational Waves — And We Can Find Them

By Paul Sutter

Scientists are on the verge of being able to detect the "memory" left behind by gravitational waves.