Strong Interlayer Magnon-Magnon Coupling in Magnetic Hybrid Nanostructures
ORAL
Abstract
Strong couplings between magnons and photons have recently attracted lots of attention due to potential applications in quantum computing by utilizing coherent couplings between spins and superconducting qubits. Here, I will present our recent experimental results on strong interlayer magnon-magnon coupling in an on-chip nanomagnonic device at room temperature [1]. Ferromagnetic nanowire arrays are integrated on a 20-nm-thick yttrium iron garnet (YIG) thin film strip. Large anticrossing gaps up to 1.58 GHz are observed between the ferromagnetic resonance of the nanowires and the in-plane standing spin waves of the YIG film. The coupling strength is tunable by the magnetic configuration, allowing the coherent control of magnonic devices.
Reference:
[1] J. Chen, C. Liu, T. Liu, Y. Xiao, K. Xia, G. E. W. Bauer, M. Wu and H. Yu, Phys. Rev. Lett., 120, 217202 (2018)
Reference:
[1] J. Chen, C. Liu, T. Liu, Y. Xiao, K. Xia, G. E. W. Bauer, M. Wu and H. Yu, Phys. Rev. Lett., 120, 217202 (2018)
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Presenters
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Jilei Chen
BeiHang University
Authors
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Jilei Chen
BeiHang University
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Chuanpu Liu
Colorado State University, BeiHang University
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Tao Liu
Physics Department, Colorado State University
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Yang Xiao
Nanhang University
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Ke Xia
Southern University of Science and Technology, Beijing Normal University
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Gerrit Bauer
Tohoku University, Institute for Materials Research & WPI AIMR & CSRN, Tohoku University
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Mingzhong Wu
Colorado State University, Department of Physics, Colorado State University, Physics Department, Colorado State University, Physics, Colorado State University
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Haiming Yu
BeiHang University