Photos of the Day: Light-Driven Superconductivity

Thu, 04/17/2014 - 10:46am
Justin Eure, Bookhaven National Laboratory

The Undulator Hall of SLAC Lab's Linac Coherent Light Source, which "wiggles" electrons to generate the high-power coherent x-rays crucial to this study.

Read: Scientists Capture Ultrafast Snapshots of Light-Driven Superconductivity

Physicist Genda Gu in the Brookhaven Lab facility where the copper-oxide materials were grown for this study.

In equilibrium (top), the charge stripe "ripples" run perpendicular to each other between the copper-oxide layers of the material. When a mid-infrared laser pulse strikes the material (middle), it "melts" these conflicting ripples and induces superconductivity (bottom). The experimenters used a carefully synchronized x-ray laser to take this femtosecond–fast "movie" to reveal how quickly the charge stripes melt. Image courtesy Jörg Harms, Max-Planck Institute for the Structure and Dynamics of Matter.

For more information visit


Share this Story

You may login with either your assigned username or your e-mail address.
The password field is case sensitive.