July 25, 2018

Department of Energy Announces $30 Million for “Ultrafast” Science

Tony Heinz and Z-X Shen will receive funding for research focused on catalysis and novel states of matter.

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News Brief

The research lays the groundwork for deeper exploration of high-temperature superconducting materials, with real-world applications such as lossless power grids and advanced quantum technologies.

superconductivity

News Brief

A SLAC study shows a process called atomic relaxation offers a new way to explore quantum states in these puzzling materials.

Light blue wavy lines on a maroon red background.

News Feature

The Center for Energy Efficient Magnonics (CEEMag) brings together a multidisciplinary group of researchers from SLAC and seven universities

Spin wave-based interconnect illustration

News Brief

The research lays the groundwork for deeper exploration of high-temperature superconducting materials, with real-world applications such as lossless power grids and advanced quantum technologies.

superconductivity

News Brief

A SLAC study shows a process called atomic relaxation offers a new way to explore quantum states in these puzzling materials.

Light blue wavy lines on a maroon red background.

News Feature

The Center for Energy Efficient Magnonics (CEEMag) brings together a multidisciplinary group of researchers from SLAC and seven universities

Spin wave-based interconnect illustration

News Feature

The finding could help future efforts to design superconductors that work at higher temperatures.

This is a graphic drawing that represents how electrons lock together in a superconducting material.

News Brief

A study reveals an ultrathin material’s ability to circularly polarize light, potentially informing how they work in optoelectronic devices.

Image from SLAC's high-speed electron camera showing circular polarization of terahertz light.

News Feature

During her fellowship she will continue research that aims to deepen our understanding of quantum materials.