Dirk Grundler

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Associate Professor

dirk.grundler@epfl.ch +41 21 693 38 52 http://lmgn.epfl.ch

https://orcid.org/0000-0002-4966-9712

EPFL STI IMX LMGN
BM 3142 (Bâtiment BM)
Station 17
1015 Lausanne

+41 21 693 38 52
+41 21 693 29 75
Office: BM 3141
EPFL > STI > IMX > LMGN

Web site: Web site: https://lmgn.epfl.ch/

+41 21 693 38 52
EPFL > STI > STI-SMX > SMX-ENS

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Administrative data

Publications

Selected publications

Profile on Google Scholar (with citations)	Full list of Publications
H. Yu, D. O. d’ Allivy Kelly, V. Cros, R. Bernard, P. Bortolotti, A. Anane, F. Brandl, F. Heimbach, D. Grundler Nature Communications 7, Article number: 11255 (2016)	Approaching soft X-ray wavelengths in nanomagnet-based microwave technology
T. Schwarze, J. Waizner, M. Garst, A. Bauer, I. Stasinopoulos, H. Berger, C. Pfleiderer, and D. Grundler Nature Materials 14, 478 (2015)	Universal helimagnon and skyrmion excitations in metallic, semiconducting and insulating chiral magnets
M. Krwaczyk and D. Grundler J. Phys.: Cond. Matter 26, 123202 (2014)	Review and prospects of magnonic crystals and devices with reprogrammable band structure (TOPICAL REVIEW, open access)
A. Buchter, J. Nagel, D. R�ffer, F. Xue, D. P. Weber, O. F. Kieler, T. Weimann, J. Kohlmann, A. B. Zorin, E. Russo-Averchi, R. Huber, P. Berberich, A. Fontcuberta i Morral, M. Kemmler, R. Kleiner, D. Koelle, D. Grundler, and M. Poggio Phys. Rev. Lett. 111, 067202 (2013)	Reversal mechanism of an individual Ni nanotube simultaneously studied by torque and SQUID magnetometry
A. van Bieren, F. Brandl, D. Grundler, and J.-P. Ansermet Appl. Phys. Lett. 102, 052408 (2013).	Space- and time-resolved Seebeck and Nernst voltages in laser-heated permalloy/gold microstructures
J. Nagel, A. Buchter, F. Xue, O. F. Kieler, T. Weimann, J. Kohlmann, A.B. Zorin, D. R�ffer, E. Russo-Averchi, R. Huber, P. Berberich, A. Fontcuberta i Morral, D. Grundler, R. Kleiner, D. Koelle, M. Poggio, and M. Kemmler Phys. Rev. B 88, 064425 (2013)	Nanoscale multifunctional sensor formed by a Ni nanotube and a scanning Nb nanoSQUID
D.P. Weber, D. R�ffer, A. Buchter, F. Xue, E. Russo-Averchi, R. Huber, P. Berberich, A. Fontcuberta i Morral, D. Grundler, and M. Poggio Nano Lett. 12, 6139 (2012)	Cantilever Magnetometry of Individual Ni Nanotubes
D. Rueffer, R. Huber, P. Berberich, S. Albert, E. Russo-Averchi, M. Heiss, J. Arbiol, A. Fontcuberta i Morral, and D. Grundler Nanoscale 4, 4989 (2012)	Magnetic states of an individual Ni nanotube probed by anisotropic magnetoresistance
S. Tacchi, G. Duerr, J.W. Klos, M. Madami, S. Neusser , G. Gubbiotti, G. Carlotti, M. Krawczyk, and D. Grundler Phys. Rev. Lett. 109, 137202 (2012)	Forbidden band gaps in the spin-wave spectrum of a two-dimensional bicomponent magnonic crystal
G. Duerr, K. Thurner, J. Topp, R. Huber, and D. Grundler Phys. Rev. Lett. 108, 227202 (2012)	Enhanced transmission through squeezed modes in a self-cladding magnonic waveguide
G. Duerr, M. Madami, S. Neusser, S. Tacchi, G. Gubbiotti, G. Carlotti, and D. Grundler Appl. Phys. Lett. 99, 202502 (2011)	Spatial control of spin-wave modes in Ni80Fe20 antidot lattices by embedded Co nanodisks
V.V. Kruglyak, S.O. Demokritov, and D. Grundler J. Phys. D: Appl. Phys. 43, 264001 (2010)	Magnonics
J. Topp, D. Heitmann, M. Kostylev, and D. Grundler Phys. Rev. Lett. 104, 207205 (2010)	Making A Reconfigurable Artificial Crystal by Ordering Bistable Magnetic Nanowires
S. Neusser and D. Grundler Advanced Materials 21, 2927 (2009)	Magnonics: Spin Waves on the Nanoscale
J. Podbielski, F. Giesen, and D. Grundler Phys. Rev. Lett. 96, 167207 (2006)	Spin-wave interference in microscopic rings
D. Grundler Phys. Rev. Lett. 84, 6074 (2000)	Large Rashba Splitting in InAs Quantum Wells due to Electron Wave Function Penetration into the Barrier Layers

Teaching & PhD

Teaching

Materials Science and Engineering

PhD Students

Deenen Axel Johan Marie, Duvakina Anna, Guo Huixin, Joglekar Shreyas Sanjay, Posva Ferdinand Rémy Hynek,

Past EPFL PhD Students

Baumgärtl Korbinian , Che Ping , Giordano Maria Carmen , Hamdi Mohammad , Kúkol'ová Anna , Mucchietto Andrea , Watanabe Sho , Yu Le ,

Courses

Introduction to magnetic materials in modern technologies

(Coursebook not yet approved by the section)

General physics: electromagnetism

The topics covered by the course are concepts of fluid mechanics, waves, and electromagnetism.

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