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Our group's research focuses on the electronic and magnetic properties of nm-scale samples. The work in the group consists of making nanometer-size devices using equipment at the Cornell NanoScale Science Technology Facility (CNF), and then performing electrical, magnetic, and optical measurements in Clark Hall.
In collaboration with the groups of Greg Fuchs, Katja Nowack, Farhan Rana, and several groups outside Cornell, we are investigating the “spin-transfer torque effect.” This is a phenomenon by which the magnetic orientation of a small magnet can be manipulated by transferring angular momentum from a current of spin-polarized electrons, rather than by using magnetic fields. We are using the spin torque as a tool for studying the fundamental physics of ferromagnetic and antiferromagnetic dynamics. This project is also progressing quickly toward applications for magnetic memory devices and high-speed signal processing.
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ADVANCED MATERIALSno. 13 (2024): e2305739-e2305739
arxiv(2023)
Anthony Edgeton,Isaac S. Harris,Neil Campbell, Yunfeng Chai,Marcel Mazur,Gautam Gurung,Xiaoxi Huang,Sandhya Susarla,Evgeny Y. Tsymbal,Daniel Ralph,Tianxiang Nan, M. S. Rzchowski,
Research Square (Research Square) (2023)
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PHYSICAL REVIEW MATERIALSno. 10 (2023)
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IEEE Transactions on Electron Devicesno. 2 (2023): 789-795
2023 DESIGN, AUTOMATION & TEST IN EUROPE CONFERENCE & EXHIBITION, DATEpp.1-10, (2023)
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