Atomic-scale imaging reveals that chalcogen atoms play a crucial role in Cooper pairing in Fe-based superconductors, offering new insights into high-Tc superconductivity mechanisms. Superconductivity in quantum materials, whether the Cooper pairing on the Fermi surface is mediated by phonons or by electronic fluctuations, is fundamentally described by Bardeen-Cooper-Schrieffer (BCS) theory....

As traditional dark matter candidates—such as weakly interacting massive particles (WIMPs), axions, and primordial black holes—continue to elude detection, theorists are exploring more exotic possibilities. Guanming Liang and Robert Caldwell of Dartmouth College have proposed a new dark matter model inspired by the physics of superconductivity [1]. Their proposal draws...

As they say, oftentimes in life we don’t know what we’ve got until it’s gone. And only later, upon reflection, do we come to realize and appreciate what we had. Such is the case with my old friend Glen McIntosh. I first met Glen in about 1995, when applying for...

A trio of Lederman fellows at Fermilab are developing ways to use quantum technology to probe the universe for dark matter and other physics phenomena. While doing so, they are sharing their enthusiasm for their work to inspire the next generation of scientists. Fermi National Accelerator Laboratory is a leader...

Stanisław (“Stan”) was my mentor, business partner, and dear friend. He was a distinguished colleague, a visionary trailblazer, and a true leader in cryogenics. Stan played a pivotal role in the Cryogenic Society of America as Director of International Affairs and Board Member, and he served as VP-USA for the...

As global industries push toward decarbonization, hydrogen has re-emerged as a promising energy carrier. From aviation to long-haul trucking, hydrogen offers a zero-carbon fuel alternative that could reshape mobility. But unlocking its full potential depends on solving one of its biggest hurdles: storage. Hydrogen is challenging to contain, particularly in...