Jorge Lezaca scite author profile

Jorge Lezaca

3Publications

13Citation Statements Received

8Citation Statements Given

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Affiliations

German Aerospace Center, European University of Brittany, Laboratoire des Sciences et Techniques de l’Information de la Communication et de la Connaissance

Publications

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Broadband permeability measurement method for ferrites at any magnetization state: Experimental results

Chevalier

Cortes

Lezaca

et al. 2013

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International audienceThis paper describes the experimental results obtained by a broadband permeability measurement method based on the full-wave electromagnetic (EM) analysis of a non-reciprocal transmission line. The method offers a new experimental tool for measuring the broadband dynamic behavior of ferrites whatever their magnetization state. The methodology and experimental setup are presented with the aim of extracting both the permittivity and the two components (diagonal µ and off-diagonal k) of the permeability tensor. Experimental data on commercial ferrites set in different magnetization states are presented and discussed. Furthermore, this method opens perspectives for the determination of other useful magnetic parameters such as resonance linewidth DH. This quantity can be then measured at different frequencies, where conventional resonant methods give a value at a fixed frequency

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Measurement of diffuse and plane of array irradiance by a combination of a pyranometer and an all-sky imager

Blum

Wilbert²,

Nouri³

et al. 2022

Solar Energy

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Magnetodielectric effect in trilayered Co65Fe35B20/PVDF/Co65Fe35B20 composite materials. Prediction and measurement for tunable microwave applications

Rasoanoavy

Laur

Blasi

et al. 2010

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The variation in the permeability of a multilayered polyvinylidene fluoride/CoFeB (piezoelectric/magnetostrictive) composite material under the action of a dc voltage is demonstrated. The driven-voltage permeability is first predicted using a finite element method-based multiphysics calculation. The simulation allows us to determine a magnetic anisotropy field of 45 Oe induced in the ferromagnetic layers by the mechanical coupling between magnetostrictive and piezoelectric layers due to the applied dc voltage. A variation of 30% for the permeability of the ferromagnetic layers is then measured using a radiofrequency permeameter and under the application of a dc voltage of 15 V applied on the ferromagnetic layers, which also act as electrodes for the bias of the polyvinylidene fluoride (PVDF). An additional measurement of the trilayered structure under the application of a dc magnetic field is finally performed to evaluate the magnetic field needed to get a 30% variation in the magnetic layers permeability in order to compare this value to the one predicted by multiphysics calculation. These experimental results are in good agreement with calculations and are very encouraging for the application of the CoFeB/PVDF/CoFeB composite material to ensure the tunability of microwave devices (filters, phase shifters, antennas, etc.)

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Jorge Lezaca

Broadband permeability measurement method for ferrites at any magnetization state: Experimental results

Measurement of diffuse and plane of array irradiance by a combination of a pyranometer and an all-sky imager

Magnetodielectric effect in trilayered Co65Fe35B20/PVDF/Co65Fe35B20 composite materials. Prediction and measurement for tunable microwave applications

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