Topic: Materials science | SLAC National Accelerator Laboratory

News Feature

Toward next-generation electronics, better medications and green energy solutions: "The First Five Years" point to a bright future of high-impact discovery at LCLS.

News Feature

SLAC and Stanford scientists discovered that a single layer of tiny diamonds increases an electron gun’s emission 13,000 fold. Potential applications include electron microscopes...

Nick Melosh holds a model of a diamondoid

News Feature

Scientists working at SLAC have for the first time directly observed a phenomenon that allows magnetic waves to travel a long distance with no...

Image - X-rays at SSRL (purple) measure a special type of magnetic wave, called a spin wave soliton, that has the ability to hold its shape as it moves across a magnetic material. The arrows represent the magentic orientation in the material.

Press Release

A team led by SLAC scientists combined powerful magnetic pulses with some of the brightest X-rays on the planet to discover a surprising 3-D...

Image - In this artistic rendering, a magnetic pulse (right) and X-ray laser light (left) converge on a superconductor material to study the behavior of its electrons. (SLAC National Accelerator Laboratory)

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A process developed by Stanford and SLAC scientists has potential for scaling up to manufacture clear, flexible electrodes for solar cells, displays and other...

Stanford and SLAC postdoctoral researcher Sean Andrews with solution shearing instrument

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A Stanford/SLAC study of an exotic material known as a magnetic insulator found the walls between its magnetic regions are conductive, opening new approaches...

An illustration of electrically conductive areas (blue) along the boundaries of tiny magnetic regions, or domains, in chunky grains of a material that normally doesn’t conduct electricity.

News Feature

An all-day symposium recognized the professor emeritus for his many contributions to the scientific community, from pioneering synchrotron radiation research at SSRL to making...

News Feature

A physicist at Argonne National Laboratory has been recognized for pioneering experiments at SLAC that helped establish a new way to study the structure...

Image - Paul Fuoss (SLAC National Accelerator Laboratory)

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The former Stanford graduate student, who did extensive research at SLAC, is being honored as an exceptional role model for women in science.

News Feature

SIMES research, which confounds two decades of assumptions on lithium-ion battery design, could lead to better batteries with more power and greater capacity.

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A researcher who performed a variety of X-ray experiments at SLAC’s synchrotron will receive an annual scientific award during a SLAC conference next month.

Press Release

Understanding Motions of Thin Layers May Help Design Solar Cells, Electronics and Catalysts of the Future

a three-atom-thick layer of a promising material as it wrinkles in response to a laser pulse

Toward next-generation electronics, better medications and green energy solutions: "The First Five Years" point to a bright future of high-impact discovery at LCLS.

SLAC and Stanford scientists discovered that a single layer of tiny diamonds increases an electron gun’s emission 13,000 fold. Potential applications include electron microscopes and semiconductor manufacturing.

Scientists working at SLAC have for the first time directly observed a phenomenon that allows magnetic waves to travel a long distance with no resistance.

A team led by SLAC scientists combined powerful magnetic pulses with some of the brightest X-rays on the planet to discover a surprising 3-D effect that appears linked to a mysterious phenomenon known as high-temperature superconductivity.

A process developed by Stanford and SLAC scientists has potential for scaling up to manufacture clear, flexible electrodes for solar cells, displays and other electronics.

A Stanford/SLAC study of an exotic material known as a magnetic insulator found the walls between its magnetic regions are conductive, opening new approaches to memory storage.

An all-day symposium recognized the professor emeritus for his many contributions to the scientific community, from pioneering synchrotron radiation research at SSRL to making science policies on Capitol Hill.

A physicist at Argonne National Laboratory has been recognized for pioneering experiments at SLAC that helped establish a new way to study the structure of complex materials.

The former Stanford graduate student, who did extensive research at SLAC, is being honored as an exceptional role model for women in science.

SIMES research, which confounds two decades of assumptions on lithium-ion battery design, could lead to better batteries with more power and greater capacity.

A researcher who performed a variety of X-ray experiments at SLAC’s synchrotron will receive an annual scientific award during a SLAC conference next month.

Understanding Motions of Thin Layers May Help Design Solar Cells, Electronics and Catalysts of the Future

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Careers at SLAC

The Fundamental Universe, Looking for Zebras, and the World’s Largest Demolition Derby

Materials science

5 Ways SLAC’s X-ray Laser Can Change the Way We Live

To Get More Oomph from an Electron Gun, Tip it With Diamondoids

X-ray Microscope Reveals 'Solitons,' a Special Type of Magnetic Wave

Researchers Discover a New Dimension to High-temperature Superconductivity

A Record-setting Way to Make Transparent Conductors: Spread Them Like Butter on Toast

Scientists Get First Glimpse of Conductivity That Could Break Size Barriers for Memory

Stanford and SLAC Celebrate Arthur Bienenstock

Paul Fuoss Receives Lytle Award for Developing X-ray Technique to Better Explore Materials

Ming Yi Awarded L'Oréal USA For Women in Science Fellowship

Battery Experiments Highlight Stanford's Dual Mission of Teaching and Research

Feng Lin Wins Spicer Award for Smart Window, Battery Research

SLAC’s Ultrafast ‘Electron Camera’ Visualizes Ripples in 2-D Material

5 Ways SLAC’s X-ray Laser Can Change the Way We Live

To Get More Oomph from an Electron Gun, Tip it With Diamondoids

X-ray Microscope Reveals 'Solitons,' a Special Type of Magnetic Wave

Researchers Discover a New Dimension to High-temperature Superconductivity

A Record-setting Way to Make Transparent Conductors: Spread Them Like Butter on Toast

Scientists Get First Glimpse of Conductivity That Could Break Size Barriers for Memory

Stanford and SLAC Celebrate Arthur Bienenstock

Paul Fuoss Receives Lytle Award for Developing X-ray Technique to Better Explore Materials

Ming Yi Awarded L'Oréal USA For Women in Science Fellowship

Battery Experiments Highlight Stanford's Dual Mission of Teaching and Research

Feng Lin Wins Spicer Award for Smart Window, Battery Research

SLAC’s Ultrafast ‘Electron Camera’ Visualizes Ripples in 2-D Material