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Paul Sutter

Paul Sutter is an astrophysicist at The Ohio State University and the Chief Scientist at COSI Science Center. 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, where he answers questions posted on social media. In addition, Paul writes for Space.com, regularly appears at events and in the media, and consults for film and TV productions.

Articles by: Paul Sutter

Could quasiparticles called magnons unmask a lightweight dark matter particle?

These Odd 'Quasiparticles' Could Finally Unmask Dark Matter

By Paul Sutter

Tiny ripples called magnons could lure even a fleeting, lightweight dark matter particle out of hiding.

symmetric abstract shapes

Breaks in the Perfect Symmetry of the Universe Could Be a Window Into Completely New Physics

By Paul Sutter

If this fundamental symmetry of the universe doesn’t hold, it could break open new physics.

The star cluster Abell 2744, also known as Pandora's Cluster, as imaged by the Spitzer Space Telescope in infrared.

Here's How Colossal Galaxy Clusters Reveal Dark Matter Secrets

By Paul Sutter

Clusters of galaxies hold the prestigious title of "largest gravitationally bound structures in the universe," which is no small feat.

A subatomic particle illustration.

Physicists Search for Monstrous Higgs Particle. It Could Seal the Fate of the Universe.

By Paul Sutter

Without the Higgs, the Standard Model of particle physics comes crashing down.

An artist's depiction of a black hole.

What Is the Black Hole Information Paradox?

By Paul Sutter

The universe really likes its information — but black holes pose a huge paradox physicists can't yet solve.

This simulated view of the large-scale structure of the universe shows the vast cosmic web of galaxies, as well as the dark, empty expanses of the cosmic voids in between.

Listen to the Void: Why Cosmic Nothingness Has So Much to Say

By Paul Sutter

At the very largest scales — zooming out from solar systems, stellar clusters and even galaxies — a surprising pattern emerges in nature.

An infrared view of the constellation Carina taken by the WISE telescope.

How an Inflating Universe Could Create a Multiverse

By Paul Sutter

It's a perennial sci-fi favorite: other worlds, other universes, other possibilities, right beyond the bounds of the known cosmos or just a flick of a magic device away.

Why does this coffee radiate in the infrared?

How a Last-Ditch Hack Led to the Invention of Quantum Mechanics

By Paul Sutter

Let's say you've got some random object in front of you — how about a nice hot cup of coffee?

Abstract illustration of elements and nuclear energy.

The Quest to Find One of the Most Elusive Particle Decays in the Universe

By Paul Sutter

...and break the laws of physics.

An ordinary proton or neutron (foreground) is formed of three quarks bound together by gluons, carriers of the color force. Above a critical temperature, protons and neutrons and other forms of hadronic matter melt into a hot, dense soup of free quarks and gluons (background), the quark-gluon plasma.

What Makes the Strong Force So Special?

By Paul Sutter

All four known forces of nature have their own unique place — and the strong nuclear force governs the very small.

ESA's Cosmic Vision 2015-2025 Plan is designed to give us new understanding and new views of the Universe.

This Single Mission Could Solve 2 of the Biggest Mysteries of the Universe

By Paul Sutter

Here's how the biggest thing in the universe could reveal secrets of the smallest things.

quasiparticle

Physicists Just Detected a Very Odd Particle That Isn't a Particle at All

By Paul Sutter

I'm a particle that really isn't; I vanish before I can even be detected, yet can be seen. I break your understanding of physics but don't overhaul your knowledge. Who am I?

Electrons and their antimatter counterparts, positrons, interact around a neutron star in this visualization. Why is there so much more matter than antimatter in the universe we can see?

The Universe's Dark Secret: Where Did All the Antimatter Go?

By Paul Sutter

So there's this stuff called "antimatter." But a weirdly small amount of it.

The masses of "true neutrinos" have long evaded physicists, but the IceCube Neutrino Observatory in Antarctica may help physicists find them. In this illustration, a neutrino interacts with Antarctic ice, shedding a muon in the process. As that muon moves at ultrafast speed, it leaves a telltale trail of blue light, known as Cherenkov radiation.

The 'True' Neutrino Has Hidden from Physicists for Decades. Could They Find It in Antarctica?

By Paul Sutter

Neutrinos are the changelings of the subatomic world, but physicists are getting closer to pinning down the particles' true identities.

The strict ratios of elements that combined into other elements gave scientists a clue that matter might have distinct component parts, now called atoms.

How Did We Figure Out Atoms Exist?

By Paul Sutter

The concept of atoms had been floating around off and on for a few millennia, but it took some clever experimentation to pinpoint their existence.

This visualization shows a jet blasting from a black hole near the speed of light. When objects reach near lightspeed, time behaves very strangely.

Does Light Experience Time? And Other Riddles.

By Paul Sutter

We don't understand the concept of time much at all.

abstract illustration of a particle collision

Where Are All the 'Sparticles' That Could Explain What's Wrong with the Universe?

By Paul Sutter

A recent search for oddball supersymmetric particles, which could explain some of the weirdness of the universe, came up empty-handed.

Comets like ISON, which swung by the sun in 2013, likely began their journey inward from a far-flung shell of icy debris surrounding the solar system called the Oort Cloud.

How We Know about the Oort Cloud, Distant Home of Comets

By Paul Sutter

Here's how we know the distant Oort Cloud exists.

3D illustration of an atom and quarks.

Why Physicists Are Interested in the Mysterious Quirks of the Heftiest Quark

By Paul Sutter

The top quark is about 100 trillion times heavier than the up quark. But why?

entropy

Life's Chaotic: Let's Learn About Entropy

By Paul Sutter

There are some universal certainties. Death. Taxes. The second law of thermodynamics.

Earth 2017 annular solar eclipse over South America

How to Destroy the Earth in Three Easy Steps

By Paul Sutter

Mad scientists through the ages have dreamed of holding the world hostage by threatening to destroy the whole thing. Here's how that could work.

Conceptual art showing a neutrino.

Why Physicists Are Hunting the Strangest of the Ghost Particles

By Paul Sutter

These tiny subatomic particles, showering down from the depths of space, continue to surprise (and annoy) physicists chasing them.

Brown dwarf 2MASSJ22282889-431026

Brown Dwarfs: The Coolest Stars or the Hottest Planets?

By Paul Sutter

Brown dwarfs are cooler than stars but hotter than planets, and despite the name, they're not even very brown.

NGC 3603

The Exotic Sources of the Universe's Most Extreme Light

By Paul Sutter

In the cosmos' most energetic events, we find some truly out-this-world methods of manufacturing radiation.

Alien planet art

Alien Hunters, Stop Using the Drake Equation

By Paul Sutter

For the precocious hunter of off-Earth life, the Drake equation is the ever-ready, go-to toolkit for estimating just how (not) lonely humans are in the Milky Way galaxy. But it's not useful.