For decades Z-X Shen has ridden a wave of curiosity about the strange behavior of electrons that can levitate magnets.

Theory suggests that quantum critical points may be analogous to black holes as places where all sorts of strange phenomena can exist in a quantum material. Now scientists are trying to pin down where this particular quantum critical point might...

Q-NEXT will tackle next-generation quantum science challenges through a public-private partnership, ensuring U.S. leadership in an economically crucial arena.

Discovered at SLAC and Stanford, this new class of unconventional superconductors is starting to give up its secrets – including a surprising 3D metallic state.

It reveals an abrupt transition in cuprates where particles give up their individuality. The results flip a popular theory on its head.

Computer simulations yield a much more accurate picture of these states of matter.

The Hubbard model, used to understand electron behavior in numerous quantum materials, now shows us its stripes, and superconductivity too, in simulations for cuprate superconductors.

Early career award recognizes Mitrano’s work in ultrafast X-ray scattering.

Two projects will look for ways to link individual quantum devices into networks for quantum computing and ultrasensitive detectors.

Made with ‘Jenga chemistry,’ the discovery could help crack the mystery of how high-temperature superconductors work.

The studies could lead to a new understanding of how high-temperature superconductors operate.

In the decade since LCLS produced its first light, it has pushed boundaries in countless areas of discovery.