Articles by: Paul Sutter

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

Black holes so big we don't know how they form could be hiding in the universe

By Paul Sutter

Black holes can get big … really big. But just how big? It's possible they could top out at over a trillion times more massive than the sun.

The Great American Solar Eclipse of Aug. 21, 2017, as seen over Madras, Oregon.

What the Aztecs thought about solar eclipses

By Paul Sutter

A recent survey sheds some light on what the mighty Aztecs thought about the rare and wonderful solar eclipses.

An image of Venus' thick atmosphere captured by NASA's Mariner 10 mission.

Did a migrating Jupiter turn Venus into hell?

By Paul Sutter

The giant planet's long-ago migration likely had big impacts.

A computer-simulated view of the northern hemisphere of Venus.

Meet Calypso, a daredevil mission concept to explore the surface of Venus

By Paul Sutter

Of all the rocky, inner worlds of the solar system, Venus is the most challenging to explore.

This photo of Earth and the moon was taken by an astronaut at the International Space Station in 2003.

What makes Earth's atmosphere so special?

By Paul Sutter

For all the biological activity on our homeworld, we're not the only interesting planet orbiting the sun. There are some other equally amazing places in the solar system. Here is just a sampling.

In a new study, researchers found that, over 20 years, ozone increased in Earth's lower atmosphere over the Northern Hemisphere.

How to debate a flat-Earther

By Paul Sutter

People around the world believe our planet is flat. Here's the (surprising) truth about debating them.

Could the universe collapse into a singularity? New study explains how.

By Paul Sutter

All you need is some string.

Black hole 'hair' could be detected using ripples in space-time

By Paul Sutter

Hair may record the information swallowed by the gravitational monsters.

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

Hunting for medium-sized black holes with the next generation of gravitational wave detectors

By Paul Sutter

Some patience will be needed.

An artist's illustration of a white dwarf pulling gas away from its companion star.

Astronomers discover the fastest-spinning white dwarf yet — and it's a vampire

By Paul Sutter

Astronomers recently spotted perhaps the strangest white dwarf yet: a dead star the spins twice a second, sucking down material from a nearby companion as it goes.

Book excerpt: 'How to Die in Space' on the beauty and danger of nebulas

By Paul Sutter

Sure, space looks pretty, but just because it sparkles doesn't make it welcoming.

A simulated image of two black holes colliding.

Are there any black holes left over from the Big Bang?

By Paul Sutter

What would a universe flooded with primordial black holes look like?

Einstein's theory of special relativity tells us the speed of light is 186,000 miles per second (300 million meters per second).

Why is the speed of light the way it is?

By Paul Sutter

We all know and love the speed of light, but why does it have the value that it does? Why isn't it some other number? And why did it become such a cornerstone of physics?

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?

NASA recently launched the Commercial Lunar Payload Services (CLPS) initiative whose aim is to find the best future payloads to deliver to the surface of the moon. These payloads would include instruments for basic science investigations. Shown here, a Lockheed Martin space concept for a commercial lunar lander.

Why a physicist wants to build a particle collider on the moon

By Paul Sutter

A physicist proposes that the moon is a great place to build a particle collider and conduct high-energy physics experiments.

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).

Visualization of a Calabi-Yau manifold, a structure representing the 6 dimensions of space-time that are curled up, according to string theory.

Exploring new tools in string theory

By Paul Sutter

String theorists are shifting focus to solve some rather sticky problems in physics.

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.

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.

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