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

Maksymov, I and Kostylev, M 2015, 'Broadband stripline ferromagnetic resonance spectroscopy of ferromagnetic films, multilayers and nanostructures', Physica E: Low-dimensional Systems and Nanostructures, vol. 69, pp. 253-293.


Document type: Journal Article
Collection: Journal Articles

Title Broadband stripline ferromagnetic resonance spectroscopy of ferromagnetic films, multilayers and nanostructures
Author(s) Maksymov, I
Kostylev, M
Year 2015
Journal name Physica E: Low-dimensional Systems and Nanostructures
Volume number 69
Start page 253
End page 293
Total pages 41
Publisher Elsevier BV
Abstract This paper 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 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.
Subject Electronic and Magnetic Properties of Condensed Matter; Superconductivity
Keyword(s) Ferromagnetic resonance
Spin waves
Eddy currents
Thin films
Nanostructures
Metamaterials
DOI - identifier 10.1016/j.physe.2014.12.027
Copyright notice © 2014 Elsevier B.V. All rights reserved.
ISSN 1386-9477
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