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Expert Voices Paul Sutter

Paul Sutter received his Ph.D. in Physics from the University of Illinois at Urbana-Champaign in 2011. After spending three years at the Paris Institute of Astrophysics, he is now a visiting scholar at the Ohio State University's Center for Cosmology and Astro-Particle Physics. Sutter is the host of several podcasts and YouTube series, consults for TV and film productions, and frequently makes public appearances discussing physics and astronomy topics and the role science plays in society.

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An artistic visualization of a hypernova.

How to make a hypernova

By Paul Sutter

How would you make a hypernova?

This visualization of the filaments — huge tendrils of gas — in the cosmic web comes from a simulation produced by the EAGLE project. Much of the universe's "normal" matter may reside in such filaments.

Where did all the baryons go?

By Paul Sutter

We don't really know where about half of the universe's "normal" matter is hiding out.

Observations made with the European Southern Observatory’s Very Large Telescope in Chile have revealed for the first time that a star orbiting the supermassive black hole at the center of the Milky Way moves just as predicted by Einstein's theory of general relativity. Its orbit is shaped like a rosette and not like an ellipse as predicted by Newton's theory of gravity. This effect, known as Schwarzschild precession, had never before been measured for a star around a supermassive black hole. This artist's impression illustrates the precession of the star's orbit, with the effect exaggerated for easier visualization.

What's the most amazing thing about the universe?

By Paul Sutter

A few scant equations can explain a variety of phenomena in our universe, over vast gulfs of space and time. Here's a taste of just how powerful modern physics can be.

Sir Isaac Newton, who may or may not have been inspired by a falling apple, detailed the three laws of motion in his work "Principia," published in 1687.

What are Newton's laws of motion?

By Paul Sutter

There's a reason — actually, several — why Sir Isaac Newton is often considered the No. 1 scientist of all time.

Artistic depiction of a tunnel or wormhole over curved space-time.

Weirdly-shaped wormholes might work better than spherical ones

By Paul Sutter

Otherwise, they'd be ferociously unstable.

Artist's illustration of Planet Nine, a world about 10 times more massive than Earth that may lie undiscovered in the far outer solar system.

Does Planet Nine really exist?

By Paul Sutter

For the past few years, the possibility of a new (and big!) planet hanging around in the far outer solar system has tantalized scientists and the public alike. Is "Planet Nine" out there or not?

An illustration of a black hole.

How close can you get to a black hole?

By Paul Sutter

Physicists are figuring out how close you can get to a black hole before you are unlikely to escape. That threshold is called the innermost stable circular orbit (ISCO).

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

Is string theory worth it?

By Paul Sutter

After 60 years, this beautiful theory hasn't produced many tangible results.

An artist's depiction of a magnetar.

Where do baby magnetars come from? Mysterious 'fast radio bursts' may provide clues.

By Paul Sutter

Magnetars — highly magnetized, rapidly rotating super-dense stars — are among the most enigmatic creatures to inhabit the cosmos and their origins are shrouded in mystery.

Abstract illustration of particles interacting at the quantum level.

Is space-time smooth or chunky?

By Paul Sutter

Is space-time ultimately smooth at the tiniest of scales, or something else? It seems impossible to measure, but researchers are beginning to look down. Deep down.

An artist's depiction of a supermassive black hole.

How did supermassive black holes get so big and chonky? Scientists still don't know.

By Paul Sutter

Although simulations suggest that black holes should grow quickly in the early universe, when astronomers look back in time they simply cannot find many such structures.

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.