Recent Articles


Superpositions of Chiral Molecules

Matter-wave diffraction can put chiral molecules into superpositions of left- and right-handed forms, enabling new studies of how the two states interact with their environment. Read More »


Long-Range Spin Currents with Chiral Crystals

Chiral crystals can produce spin-polarized currents that propagate over tens of micrometers—a promising feature for application in spintronics devices. Read More »

Research News

Pedestrian Physics Walks Away with Two Ig Nobels

This year’s Ig Nobel prize winners include two groups of physicists studying how humans avoid—and sometimes don’t avoid—collisions while walking. Read More »


Quantum Solution to Classical Drag Puzzle

A quantum-inspired model explains why objects moving in a fluid experience drag even at high speeds where viscosity should be negligible.  Read More »


Bacteria That Shove Harder, Move Further

Simulations show that the harder bacteria in a swarm push against one another, the more likely they are to go on long “walks.” Read More »


Fine Structure Constant Goes Big in Spin Ices

Inside a quantum spin ice, the constant that defines electromagnetic interactions is 10 times larger than normal, according to calculations. Read More »

Research News

Physics Abounds at Conference on Math and Art

Quasicrystals, the Markov-chain model, and topological surfaces were just a few of the physics concepts on display at the 2021 Bridges conference. Read More »

Arts & Culture

Repackaging a Mathematically Odd Bottle

Stepan Paul creates mathematically correct sculptures to help teach complex math concepts. Read More »


Controlling the Phase Transition in Superfluid Helium-3

Researchers demonstrate that they can suppress the formation of defects that appear in superfluid helium-3 when it undergoes a continuous phase transition, allowing them to influence the form of the system’s final phase. Read More »

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