A spin wave (SW) filter, consisting of a magnonic waveguide, a spacing layer, and an reconfigurable soft magnetic structure, is introduced. Micromagnetic simulations, along with preliminary experimental results, demonstrate the potential for a reconfigurable filtering action mediated by the dipolar coupling between the waveguide and the reconfigureble layer. This proof of concept lays the groundwork for a future device capable of serving as both a dedicated filter in radiofrequency signal processing and a tunable unit in computing applications.
Reconfigurable Magnon-Based Radio Frequency Filters
Del Giacco A.;Toniato A.;Maspero F.;Cattoni A.;Bertacco R.
2024-01-01
Abstract
A spin wave (SW) filter, consisting of a magnonic waveguide, a spacing layer, and an reconfigurable soft magnetic structure, is introduced. Micromagnetic simulations, along with preliminary experimental results, demonstrate the potential for a reconfigurable filtering action mediated by the dipolar coupling between the waveguide and the reconfigureble layer. This proof of concept lays the groundwork for a future device capable of serving as both a dedicated filter in radiofrequency signal processing and a tunable unit in computing applications.File in questo prodotto:
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Del Giacco et al. - 2024 - Reconfigurable Magnon-Based Radio Frequency Filter.pdf
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