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Julie A. Borchers (Fed)

Senior Research Scientist, Neutron Condensed Matter Science

Associate Director, Center for High Resolution Neutron Scattering (CHRNS)

Instrument ScientistPolarized Beam Reflectometer (PBR)

 

 

 

 

Publications

Skyrmion Lattice Formation and Destruction Mechanisms Probed with TR-SANS

Author(s)
W. L. N. C. Liyanage, Nan Tang, Rebecca Dally, Lizabeth J. Quigley, C. Buchanan, Guo-Jiun Shu, Nicholas Butch, Kathryn Krycka, Markus Bleuel, Julie A. Borchers, Debeer-Schmitt Lisa, Dustin Gilbert
Magnetic skyrmions are topologically protected, nanoscale whirls of the spin configuration that tend to form hexagonally ordered arrays. As a topologically non

Skyrmion-Excited Spin-Wave Fractal Networks

Author(s)
Nan Tang, W. L. N. C. Liyanage, Sergio A. Montoya, Sheena Patel, Lizabeth J. Quigley, Alexander Grutter, Michael R. Fitzsimmons, Sunil Sinha, Julie A. Borchers, Eric E. Fullerton, Lisa Debeer-Schmitt, Dustin A. Gilbert
Magnetic skyrmions exhibit unique, technologically relevant pseudo-particle behaviors which arise from their topological protection, including well-defined

Three-Dimensional Structure of Hybrid Magnetic Skyrmions Determined by Neutron Scattering

Author(s)
W. L. N. C. Liyanage, Nan Tang, Lizabeth J. Quigley, Julie A. Borchers, Alexander Grutter, Brian B. Maranville, Sunil Sinha, Nicolas Reyren, Sergio A. Montoya, Eric E. Fullerton, Lisa Debeer-Schmitt, Dustin A. Gilbert
Magnetic skyrmions are topologically protected chiral spin structures which present opportunities for next-generation magnetic data storage and logic
View more Publications
Created October 9, 2019, Updated December 22, 2022