Condensed-Matter Physics

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August 1, 2022
News Feature
Study finds nickelate superconductors are intrinsically magnetic
Waves of magnetic excitation sweep through this exciting new material whether it’s in superconducting mode or not – another possible clue to how unconventional superconductors carry electric current with no loss.
A brightly colored top is seen spinning between two layers of gray, purple and red spheres representing atoms in a nickel oxide superconductor.
July 25, 2022
News Feature
A new leap in understanding nickel oxide superconductors
Researchers discover they contain a phase of quantum matter, known as charge density waves, that’s common in other unconventional superconductors. In other ways, though, they’re surprisingly unique.
Artist's illustration shows quantum states called superconductivity and charge density waves atop an atomic lattice of balls and sticks
May 20, 2022
News Feature
Superconductivity and charge density waves caught intertwining at the nanoscale
Scientists discover superconductivity and charge density waves are intrinsically interconnected at the nanoscopic level, a new understanding that could help lead to the next generation of electronics and computers.
A beam of light lands on a series of squiggly lines. Where the beam lands, the lines are straight.
March 9, 2022
News Feature
In a first, researchers image the full structure of trapped excitons
It’s a significant step in understanding these whirling quasiparticles and putting them to work in future semiconductor technologies.
A beam of light hits a semiconductor material, ejecting an electron (blue) which goes on to partner with a hole (orange) to form a whirling compound particle, the exciton.
February 14, 2022
News Feature
A new way to shape a material’s atomic structure with ultrafast laser light
X-ray laser experiments show that intense light distorts the structure of a thermoelectric material in a unique way, opening a new avenue for controlling the properties of materials.
Illustration shows two ball-and-stick molecules in pink and red separated by a blurred streak representing how the first structure is slightly deformed into the second.
February 9, 2022
News Feature
Study raises new possibilities for triggering room-temperature superconductivity with light
Scientists discover that triggering superconductivity with a flash of light involves the same fundamental physics that are at work in the more stable states needed for devices, opening a new path toward producing room-temperature superconductivity.
October 22, 2021
News Feature
Experiments confirm a quantum material’s unique response to circularly polarized laser light
Topological insulators conduct electricity on their surfaces but not through their interiors. SLAC scientists discovered that high harmonic generation produces a unique signature from the topological surface.
A counterclockwise pattern of swirling arrows This pattern of arrows representing the combined spin and momentum of electrons in the surface layer of a topological insulator
October 13, 2021
News Feature
Why skyrmions could have a lot in common with glass and high-temperature superconductors
Spawned by the spins of electrons in magnetic materials, these tiny whirlpools behave like independent particles and could be the future of computing. Experiments with SLAC’s X-ray laser are revealing their secrets.
Illustration of skyrmions -- little whirlpools of magnetism formed by the spins of atoms.
October 7, 2021
News Feature
Department of Energy gives green light for a flagship petawatt laser facility at SLAC
High-power lasers will work in concert with the lab’s X-ray laser to dramatically improve our understanding of matter in extreme conditions.
diamond rain
September 9, 2021
News Feature
After 20 years of trying, scientists succeed in doping a 1D chain of cuprates
The chemically controlled chains reveal an ultrastrong attraction between electrons that may help cuprate superconductors carry electrical current with no loss at relatively high temperatures.
An illustration showing a 1D chain of carbon and oxygen molecules with red springs representing natural vibrations in their atomic lattice.

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