Magnonics ESM Lecture Grundler v1magnetism.eu/esm/2015/slides/grundler-slides.pdf · 2018-04-03 ·...
Transcript of Magnonics ESM Lecture Grundler v1magnetism.eu/esm/2015/slides/grundler-slides.pdf · 2018-04-03 ·...
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From magnetic resonance to nanomagnonics: reprogrammable spin wave flow in nanostructured magnets
Dirk Grundler
Présentation Grundler Magnonics| 2015
Laboratory of Nanoscale Magnetic Materials and Magnonics (LMGN), IMX, STI, Ecole Polytechnique Federalede Lausanne, CH-1015 Lausanne, Switzerland
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Books
Graphs also from:
Further reading:
Contents (in cgs)/graphs from:
[1] [2]
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Contents
Motivation: why spin dynamics (magnonics) from an experimental point of view?
From magnetic susceptibility to ferromagnetic resonance (FMR)
Effective magnetic field
Spin waves in the long wavelength limit
Spin-wave transmission through a reprogrammable 1D magnonic crystal
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Spin-wave based electronics/Magnonics - Motivation
Control and manipulation of microwave signals on microscopic scales:periodically modulated magnetic systems give rise to (i) grating coupler effect
(H. Yu et al., Nature Commun. 4, 2702 (2013))(ii) tailored band structures for spin waves
(G. Gubbiotti et al, J. Phys. D: Appl. Phys. 43, 264003 (2010))
J. Phys. D: Appl. Phys. 43, 264001 (2010)
magnonic crystal with (ii)
Internet of Things
© C
ISC
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@2020: > 24 billion devicesinterconnected wirelessly
Motivation
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From piezoelectrics to magnonics
http://www3.sympatico.ca/colin.kydd.campbell/
GHz electric field istransfered into an elastic deformation:surface acoustic wave (SAW)
Signal speed: few km/s
Different “transducers“ for spin waves: coplanar waveguides withGHz magnetic field
substrate
ferro‐magnet
ferromagneticthin film ofNi80Fe20
spinwave
2D magnonic crystal
2 µm
S. Neusser, PhD thesis, TU Munich (2011)
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Broadband spectroscopy at GHz frequencies
Wemeasurescatteringparameters.
H
T. Schwarze, PhD thesis, TU Munich (2013)
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Landau‐Lifshitz‐Gilbert equation (SI): the fundamental equation of magnonics
Hint contains different (effective) fields:• applied dc field H• demagnetization field Hdemagnetization (shape)• anisotropy fields (spin‐orbit coupling)• exchange field (interaction Aex)• microwave magnetic field hrf
gyromagnetic factor damping constant (Gilbert)
How spins are excited
‐ The equation holds on different length scales.
electron spinsprecess at theirgiven position©
Saitohgroup
k = 2/
spins
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Static spin orders
[2]
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From EoM to high-frequency magnetic susceptibility (cgs)
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From EoM to high-frequency magnetic susceptibility
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Components of susceptibility tensor
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Gyrotropy
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Analysis of tensor components: Resonant behavior
Ferromagnetic resonance (FMR)
[1]
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Resonant permeability
[1]
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Equation of Motion: model system
EoM provides a resonant behavior, with frequencies typically in the GHz frequency regime and beyond
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Sepp Kressierer, Technische Universität MünchenMovie at: https://www.av.ph.tum.de/Experiment/1000/Film/1306.php
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For comparison
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Later on: Relaxation due to damping
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Field dependence of resonance in isotropic Ni80Fe20
Shape anisotropy
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Further kind of magnetic anisotropy
Model:
Magnetocrystallineanisotropy:
easy axis
hard axis
[2]
[2]
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How to consider in EoM? Effective fields (Landau/Lifshitz)
exchange Zeeman(in internal field)
Note: 1) the dc (ac) part of Uex does not (does) enter the EoM2) Hef exhibits dc and ac contributions
Example:
anisotropy
Variational derivative of energy U
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How about time-dependent and spatially inhomogeneous Hef?
electron spinsprecess at theirgiven position©
Saitohgroup
k = 2/
Excitation of spin waves
Solution of EoM for a thin film:
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Spin wave modes in the long-wavelength limit
Limiting values extracted fromHerring-Kittel formula valid forunrestricted geometry:
Adapted from: B. Hillebrands, U Kaiserslautern, Germany
~ Damon-Eshbach mode
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Spin wave modes in the long-wavelength limit
Adapted from: B. Hillebrands, U Kaiserslautern, Germany
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Different restoring forces
Adapted from: B. Hillebrands, U Kaiserslautern, Germany
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Example: ferromagnetic thin film of CoFeB
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Example: ferromagnetic thin film of CoFeB
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Spin wave transmission
Ni80Fe20(30 nm thick)
CPW 1
255-nm-wideNi80Fe20 stripes
wave vectorq
45-nm-wide gap
H
CPW excites a distribution of wave vectors
R. Huber, PhD thesis,TU Munich (2014)
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Transmission through 40 air gapsParametersextracted fromfitting* (red):
relaxation time:~ 1.2 nsgroup velocity:4 km/sfrequency:6.9 GHz
G. Duerr et al.,J. Phys.: Condens. Matter 24, 024218(2012)
µ0H ~ 3 mT
propagation length:12 µm(acrossabout 40 air gaps)
*M. Covington et al., Phys. Rev. Lett. 89, 237202 (2002).
H = 0
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freq
uen
cy
wave vector q
Dipolar spin wave forplain Ni80Fe20 (Py) film at
quantized modes withdifferent numbers n of nodes
Spin wave dispersion relation:
q M
w
n=0
n=1
n=2
n=0
Quantized spin waves first reported:C. Mathieu et al., Phys. Rev. Lett. 81, 3968 (1998).
In densely packed array : miniband formation bydynamic dipolar interaction
q M
G. Gubbiotti et al., Appl. Phys. Lett. 90, 092503 (2007).
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Reconfigurable artificial crystal for spin waves
n=0bn=0a
Ferromagnetic order (FMO)
Antiferromagnetic order (AFO)
M
Magnonic crystal (MC):band structures for FMO/AFO(periodic zone scheme)
q
q
q MJ. Topp et al., Phys. Rev. Lett. 104, 207205 (2010)
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Field-controlled band-stop filter
Reconfigurable 2D magnonic crystals (theory):J. Shibata et al., Phys. Rev. B 70, 012404 (2004);R. Verba et al., Phys. Rev. B 85, 014427 (2012).
Reconfigurable 1D magnonic crystals (exp.):S. Tacchi et al., Phys. Rev. B 82, 184408 (2010);J. Ding et al., Phys. Rev. Lett. 107, 047205 (2011).
M. Krawczyk and D.Grundler, J. Phys.: Condens. Matter 26, 123202 (2014)
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Spin-wave based electronics/Magnonics
Control, transmission and manipulation of GHz signals on microscopic scales
J. Phys. D: Appl. Phys. 43, 264001 (2010)
Review on reconfigurable devices:M. Krawczyk and D.G., J. Phys.: Condens. Matter 26, 123202 (2014)
© C
ISC
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