Condensed-Matter Physics

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April 21, 2021
News Feature
Scientists glimpse signs of a puzzling state of matter in a superconductor
Known as “pair-density waves,” it may be key to understanding how superconductivity can exist at relatively high temperatures.
Illustration depicting how two types of waves within superconducting materials intertwine to form a third type known as charge-density waves
April 12, 2021
News Feature
In a first, scientists watch 2D puddles of electrons spontaneously emerge in a 3D superconducting material
It’s an example of how surprising properties can spontaneously emerge in complex materials – a phenomenon scientists hope to harness for novel technologies.
Illustration of a 2D superconducting state emerging in a 3D superconductor
February 2, 2021
News Feature
A new hands-off probe uses light to explore the subtleties of electron behavior in a topological insulator
Just as pressing a guitar string produces a higher pitch, sending laser light through a material can shift it to higher energies and higher frequencies. Now scientists have discovered how to use this phenomenon to explore quantum materials in a new and much more detailed way.
Illustration of high harmonic generation in a topological insulator using circularly polarized laser light
September 10, 2020
News Feature
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Stanford physicist’s quest for the perfect keys to unlock the mysteries of superconductivity
For decades Z-X Shen has ridden a wave of curiosity about the strange behavior of electrons that can levitate magnets.
Portrait of Stanford and SLAC Professor Z-X Shen
August 31, 2020
News Feature
SLAC researchers find evidence for quantum fluctuations near a quantum critical point in a superconductor
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 be.
Illustration of changes in charge stripes as a superconductor approaches a quantum critical point
August 5, 2020
News Feature
Shedding light on stellar evolution
Researchers developed a way to measure the basic properties of matter at the highest pressures thus far achieved in a controlled laboratory experiment.
White dwarf
July 2, 2020
News Feature
How iron transforms under pressure
New research could offer insights into the formation of planets like Earth and inform the design of more resilient materials.
Iron impact header
June 16, 2020
News Feature
A new way to study how elements mix deep inside giant planets
It could offer insights into the evolution of planetary systems and guide scientists hoping to harness nuclear fusion as a new source of energy.
Scattered photons
May 18, 2020
News Feature
To decipher Earth’s evolutionary tale, researchers probe materials at deep-Earth conditions
Learning how liquid silicates behave at these extreme temperatures and pressures has been a longstanding challenge in the geosciences.
liquid silicates
May 15, 2020
News Feature
In a step forward for orbitronics, scientists break the link between a quantum material's spin and orbital states
The advance opens a path toward a new generation of logic and memory devices that could be 10,000 times faster than today's.
Fanciful illustration based on electron orbitals

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