Generalized Measurement Method for the Determination of the Dynamic Behavior of Magnetic Materials in Any Magnetization State

Lezaca, Jorge; Quéffélec, Patrick; Chevalier, Alexis

doi:10.1109/tmag.2009.2039776

Cited by 4 publications

(3 citation statements)

References 9 publications

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“…Also, often the stripline technique is used to drive magnetisation precession in ferromagnetic materials, but the FMR absorption signal is read in a "non-microwave" way, for instance with an MFM-tip ("MFM-FMR", see, e.g., [221,222,223,224,225,226]), with micro-focus Brillouin Light Scattering (BLS) method (see, e.g., [227,228]), or using the inverse Spin-Hall Effect (see, e.g., [229,230,231,232]) or similar electronic/spintronic methods (see, e.g., [86,233,234,235,236,237]). We also have not described the large areas of magnonics and spintronics in their entirety, but addressed these topics only from a perspective of BFMR as such.…”

Section: Related Topicsmentioning

confidence: 99%

Broadband stripline ferromagnetic resonance spectroscopy of ferromagnetic films, multilayers and nanostructures

Maksymov

Kostylev

2015

Physica E: Low-dimensional Systems and Nanostructures

154

149

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This article presents a comprehensive critical overview of fundamental and practical aspects of the modern stripline broadband ferromagnetic resonance (BFMR) spectroscopy largely employed for the characterisation of magnetic low-dimensional systems, such as thin ferro-and ferromagnetic, multiferroic and half-metallic films, multi-layers and nanostructures. These planar materials form the platform of the nascent fields of magnonics and spintronics. Experimental and theoretical results of research on these materials are summarised, along with systematic description of various phenomena associated with the peculiarities of the stripline BFMR, such as the geometry of stripline transducers, the orientation of the static magnetic field, the presence of microwave eddy currents, and the impacts of non-magnetic layers, interfaces and surfaces in the samples. Results from more than 240 articles, textbooks and technical reports are presented and many practical examples are discussed in detail. This review will be of interest to both general physical audience and specialists conducting research on various aspects of magnetisation dynamics and nanomagnetism.

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Section: Related Topicsmentioning

confidence: 99%

Broadband stripline ferromagnetic resonance spectroscopy of ferromagnetic films, multilayers and nanostructures

Maksymov

Kostylev

2015

Physica E: Low-dimensional Systems and Nanostructures

154

149

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“…The method we have worked out is based on the measurement of the scattering parameters (S-parameters) of a strip transmission line partially filled with the magnetic material to be characterized. 2 As shown in Figure 1, two identical slabs of the magnetic sample are set above and below the strip conductor. At each side of the strip two different dielectrics are placed (respective permittivities e 1 and e 2 ) to insure the non-reciprocal behavior (S 21 6 ¼ S 12 ) of the line when the material under test is magnetized.…”

Section: Description Of the Measurement Methodsmentioning

confidence: 99%

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

Chevalier

Cortes

Lezaca

et al. 2013

Journal of Applied Physics

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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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“…Diagram of asymmetrical cells : rectangular waveguide and strip transmission line Figure 28 shows schemes of two methods based on (i) an asymmetrically loaded rectangular waveguide (Queffelec P. et al 2000) and (ii) an asymmetrically loaded strip line (Lezaca J. E et al 2010, Lezaca J. E et al 2011). In the latter method, the measurement cell consists of an asymmetric strip line partially filled with the material to be characterized.…”

Section: Figure 28mentioning

confidence: 99%

Ferrite Ceramics at Microwave Frequencies: Applications and Characterization

Mattéi

Chevalier

Laur

2021

Encyclopedia of Materials: Technical Ceramics and Glasses

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This article focuses on microwave ferrites and their applications. The term ferrites designates ferrimagnetic materials, which constitute a class of magnetic materials showing high dynamic permeability and high electrical resistivity over frequencies up to several GHz. This article's aim is to present a primer to polycrystalline ferrite microwave properties, including wave propagation in magnetized ferrimagnetic materials. A special emphasis is placed on the incidence of material shape on its microwave properties. Some current applications of low-loss ferrimagnets in passive microwave components are addressed. A review of some microwave characterization methods is made in the last section.

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Generalized Measurement Method for the Determination of the Dynamic Behavior of Magnetic Materials in Any Magnetization State

Cited by 4 publications

References 9 publications

Broadband stripline ferromagnetic resonance spectroscopy of ferromagnetic films, multilayers and nanostructures

Broadband stripline ferromagnetic resonance spectroscopy of ferromagnetic films, multilayers and nanostructures

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

Ferrite Ceramics at Microwave Frequencies: Applications and Characterization

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