Expert Voices Paul Sutter

Paul M. Sutter is a theoretical cosmologist at the Institute for Advanced Computational Science at Stony Brook University and a guest researcher at the Flatiron Institute in New York City. An award-winning science communicator, he is the author of Your Place in the Universe and How to Die in Space, and the host of the "Ask a Spaceman" podcast.

Related Topics: Expert Voices, Expert Voices - Don Lincoln, Expert Voices - Leroy Chiao, Expert Voices - Robert Lawrence Kuhn, Expert Voices - The Kavli Foundation 

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a dense web of wires and magnets in a circular arrangement

Top 10 best (or worst) terms in astronomy and physics

By Paul Sutter published

The modern scientific fields of astronomy and physics stretch back for centuries, and so naturally they've accumulated a lot of interesting names for objects, ideas, and phenomena.

dark energy depicted as wispy clouds of energy and material

A dynamic form of dark energy may explain strange radiation signal from the early universe

By Paul Sutter published

We may have already found evidence of an evolving, dynamic kind of dark energy, in the form of the radiation emitted when the first stars appeared in the universe.

A NASA illustration of a black hole with the pitch black heart ringed by the event horizon

Tiny primordial black holes could have created their own Big Bang

By Paul Sutter published

A large population of small black holes could have flooded the young cosmos with particles and radiation, creating their own black hole-powered Big Bang, physicists propose in a new paper.

light rays streaming through space from a single source

Cosmic rays pose dangers to frequent flyers. This radiation detector could help.

By Paul Sutter published

These cosmic rays typically come from the extremely distant universe, from ultrapowerful events such as supernovas and quasars.

The planet Mercury seen from NASA's Messenger spacecraft in December 2009.

Why is Mercury so weird? Blame the giant outer planets.

By Paul Sutter published

Mercury is so strange that astronomers have not been able to explain its properties with simulations of the solar system's formation. But now, researchers have found an important clue.

newton's laws of motion: illustration of a person holding an apple with mathematical equations in front and an illustration of orbits in behind

What are Newton's laws of motion?

By Paul Sutter last updated

Reference Newton's Laws of Motion is one of the reasons that Sir Isaac Newton is often considered the No. 1 scientist of all time.

NGC 1858 is a loosely-bound collection of stars and a place where ionized interstellar gas glows.

Blue stragglers are the weird grandparents of the galaxy

By Paul Sutter published

Finding and studying these strange stars helps us understand the complicated life cycles of normal, more well-behaved stars.

Astronomy has plenty of space for amateurs.

Almost anyone can become an amateur astronomer. What will you find?

By Paul Sutter published

Want to become a published astronomer? All it takes is a spare telescope, or at least a decent internet connection, and plenty of patience.

clock icon and blue abstract motion background

Why time-traveling tachyons probably don't exist

By Paul Sutter published

Einstein toyed with the idea of faster-than-light-particles but found that such particles violated a central rule of the universe: causality.

3D illustration of an atom and quarks.

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

By Paul Sutter last updated

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

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 last updated

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.

A computer illustration of the creation of separate parallel universes as fluctuations in a quantum foam

'Spooky action at a distance' can lead to a multiverse. Here's how.

By Paul Sutter published

Some interpretations of quantum mechanics propose that our entire universe is described by a single universal wave function that constantly splits and multiplies.

The laws of physics define the orbits of planets.

What makes Newton's laws work? Here's the simple trick.

By Paul Sutter published

Lagrange found that the difference between an object's kinetic energy and potential energy unlocked something deeply profound about the universe.

neutron star shooting beams into space

Unusual 'revived' pulsars could be the ultimate gravitational wave detector

By Paul Sutter published

Astronomers hope to use pulsars scattered around the galaxy as a giant gravitational wave detector. But why do we need them, and how do they work?

An artist's depiction of a super-Earth.

Just how big can a super-Earth get while staying 'habitable'?

By Paul Sutter published

But could these giant, rocky planets actually sustain the conditions for life? Or is life limited to smaller planets like our own?

artist depiction of dark planet

Planets made of dark matter may have blown up, and we could see them

By Paul Sutter published

A new hypothesis proposes that a large fraction of dark matter may be bound up inside tight balls the size of Neptune — so-called dark matter planets.

The first picture of a black hole was made using observations of the center of galaxy M87 taken by the Event Horizon Telescope

Black holes may die differently than we thought

By Paul Sutter published

New research motivated by string theory suggests possible, and equally strange, fates for evaporating black holes.

higgs boson simulation

What the Higgs Is Going on with Mass?

By Paul Sutter last updated

By now, most people have heard the refrain: "The Higgs boson creates mass." But the reality is a bit more complicated than that.

Higgs Boson Simulation

The Higgs Boson: A Not-So-Godlike Particle

By Paul Sutter last updated

Let's be perfectly honest: The Higgs boson and its role in the universe are not the easiest things to explain.

This abstract illustration depicts a bubble-like multiverse.

The Higgs boson could have kept our universe from collapsing

By Paul Sutter last updated

The Higgs boson particle could have kept our universe from collapsing within a larger multiverse, physicists say.