To 6G and Beyond: Penn Engineers Unlock the Next Generation of Wireless Communications
Tunable Magnetostatic Surface Wave (MSW) Filters with Zero Static Power
Du, Xingyu, et al. "A Wideband Tunable, Nonreciprocal Bandpass Filter Using Magnetostatic Surface Waves with Zero Static Power Consumption." arXiv preprint arXiv:2505.09845 (2025).
Wu, Shuxian, et al. "Spatially tailored spin wave excitation for spurious-free, low-loss magnetostatic wave filters with ultra-wide frequency tunability." arXiv preprint arXiv:2507.14469 (2025).
Ding, Yixiao, Xuan Wang, and Mark G. Allen. "A Tunable Magnetic Bias Circuit With Zero Static Power Consumption." IEEE Magnetics Letters (2025).
Du, Xingyu, et al. "Meander Line Transducer Empowered Low-Loss Tunable Magnetostatic Wave Filters with Zero Static Power Consumption." 2024 IEEE/MTT-S International Microwave Symposium-IMS 2024. IEEE, 2024.
Du, Xingyu, et al. "Frequency tunable magnetostatic wave filters with zero static power magnetic biasing circuitry." Nature Communications 15.1 (2024): 3582.
Du, Xingyu, et al. "Magnetostatic Wave Notch Filters Frequency Tuned Via a Zero DC Power Magnetic Bias Circuit." 2024 IEEE International Microwave Filter Workshop (IMFW). IEEE, 2024.
