Newswise — WASHINGTON, D.C., March 4, 2019 -- Magnetic materials have a worldwide market share of some $50 billion per year. A new frontier in the study of these materials, femtomagnetism, could lead to ultrafast magnetic storage devices that would transform information processing technologies with storage devices several orders of magnitude faster.
Now, researchers report a tabletop method to characterize such a faster magnetic storage using high-harmonic generation of laser light in iron thin films, which the researchers liken to the generation of sound waves by striking keys on a piano.
They present their work this week at the 2019 American Physical Society March Meeting in Boston, and one of the researchers will also participate in a press conference describing the work. Information for logging on to watch and ask questions remotely is included at the end of this news release.
If you play a piano softly, the piano hammer hits a string generating a sound with a particular fundamental frequency, lead researcher, Guoping Zhang, explained, but if you hit harder, tone quality changes from bass to treble. "In the bass region, there are 50 to 60 times the fundamental frequency or 50 to 60 harmonics," he said. "In our work, we essentially do the same thing with light, converting a single frequency to many, many multiples of the light frequency, or high harmonics.”
“There are lots of nonmagnetic materials that can produce high harmonics,” said Zhang, who is a professor of physics at Indiana State University. “The significance of our work is to extend the concept of high harmonics into technologically important magnetic materials.”
The method measures how electrons move, or spin, under the influence of a strong laser pulse on a quadrillionth-of-a-second time scale. There are many ways to measure magnetic properties of a sample, Zhang said, but the majority lack the capability to resolve the quantum mechanical spins which are at the center of spintronics.
“The novelty of our method, which was never known before, is that we can directly detect the spin signal,” Zhang said. “This signal is crucial and is at the core of spin-based technology.”
What’s more, Zhang said, “researchers often rely on very large facilities to perform necessary measurements. High harmonic generation from Fe thin films is a tabletop experiment; thus it is more accessible to many groups.”
“Our work was inspired by several pioneering works before us,” Zhang said. The first is femtomagnetism where an ultrafast laser pulse, instead of a magnetic field, can be used to demagnetize a sample. The second is high harmonic generation research in other materials.
“We combined these two fields together,” Zhang said. “In the future we plan to examine much more complicated but technologically important materials with complicated spin textures difficult to investigate with other techniques.”
Zhang says the group’s work has the same vision as quantum technology in its use of electron spin to carry information, but is more practical because it originates from magnetic storage ideas. “Our present work will provide a way to characterize these quantum bits,” he said.
The 2019 APS March Meeting presentation “High harmonic generation in ferromagnetic thin films as a tool to probe spin and charge dynamics," by Guoping Zhang, Mingsu Si, Mitsuko Murakami, Yihua Bai and Thomas F. George, will take place Monday, March 4, at 3:30 p.m. in room 209 of the Boston Convention and Exhibition Center. ABSTRACT: http://meetings.aps.org/Meeting/MAR19/Session/C41.4
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The American Physical Society (APS) March Meeting is a major international conference and the largest physics meeting of the year. In 2019, the APS March Meeting will convene March 4-8 at the Boston Convention and Exhibition Center.
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The American Physical Society is a nonprofit membership organization working to advance and diffuse the knowledge of physics through its outstanding research journals, scientific meetings, and education, outreach, advocacy, and international activities. APS represents over 55,000 members, including physicists in academia, national laboratories, and industry in the United States and throughout the world. Society offices are located in College Park, Maryland (Headquarters), Ridge, New York, and Washington, D.C. Read more: https://www.aps.org/