Michael Huth
Michael Huth
Professor for experimental condensed matter physics, Goethe University, Frankfurt am Main, Germany
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Zitiert von
Zitiert von
Focused electron beam induced deposition: A perspective
M Huth, F Porrati, C Schwalb, M Winhold, R Sachser, M Dukic, J Adams, ...
Beilstein journal of nanotechnology 3 (1), 597-619, 2012
Superconductivity mediated by spin fluctuations in the heavy-fermion compound UPd2 Al3
M Jourdan, M Huth, H Adrian
Nature 398 (6722), 47-49, 1999
Advances in magnetics roadmap on spin-wave computing
AV Chumak, P Kabos, M Wu, C Abert, C Adelmann, AO Adeyeye, ...
IEEE Transactions on Magnetics 58 (6), 1-72, 2022
Focused electron beam induced deposition meets material science
M Huth, F Porrati, OV Dobrovolskiy
Microelectronic Engineering 185, 9-28, 2018
A tunable strain sensor using nanogranular metals
CH Schwalb, C Grimm, M Baranowski, R Sachser, F Porrati, H Reith, ...
Sensors 10 (11), 9847-9856, 2010
Direct-write of free-form building blocks for artificial magnetic 3D lattices
L Keller, MKI Al Mamoori, J Pieper, C Gspan, I Stockem, C Schröder, ...
Scientific reports 8 (1), 6160, 2018
Tuning the electrical conductivity of Pt-containing granular metals by postgrowth electron irradiation
F Porrati, R Sachser, CH Schwalb, AS Frangakis, M Huth
Journal of Applied Physics 109 (6), 2011
Magnon-Fluxon interaction in a ferromagnet/superconductor heterostructure
O Dobrovolskiy, R Sachser, T Brächer, T Fischer, V Kruglyak, R Vovk, ...
Nature Physics 15, 477, 2019
Direct writing of CoFe alloy nanostructures by focused electron beam induced deposition from a heteronuclear precursor
F Porrati, M Pohlit, J Müller, S Barth, F Biegger, C Gspan, H Plank, M Huth
Nanotechnology 26 (47), 475701, 2015
Granular metals: From electronic correlations to strain-sensing applications
M Huth
Journal of Applied Physics 107 (11), 2010
Ultra-fast vortex motion in a direct-write Nb-C superconductor
OV Dobrovolskiy, DY Vodolazov, F Porrati, R Sachser, VM Bevz, ...
Nature Commun. 11, 3291, 2020
Focused Electron Beam-Based 3D Nanoprinting for Scanning Probe Microscopy: A Review
H Plank, R Winkler, CH Schwalb, J Hütner, JD Fowlkes, PD Rack, I Utke, ...
Micromachines 11, 48, 2020
Writing 3D Nanomagnets Using Focused Electron Beams
A Fernández-Pacheco, L Skoric, JM De Teresa, J Pablo-Navarro, M Huth, ...
Materials 13, 3774, 2020
Conductance regimes of W-based granular metals prepared by electron beam induced deposition
M Huth, D Klingenberger, C Grimm, F Porrati, R Sachser
New Journal of Physics 11 (3), 033032, 2009
The transient electrical conductivity of W-based electron-beam-induced deposits during growth, irradiation and exposure to air
F Porrati, R Sachser, M Huth
Nanotechnology 20 (19), 195301, 2009
Nature of heavy quasiparticles in magnetically ordered heavy fermions UPd 2 Al 3 and UPt 3
M Dressel, N Kasper, K Petukhov, B Gorshunov, G Grüner, M Huth, ...
Physical review letters 88 (18), 186404, 2002
Precursors for direct-write nanofabrication with electrons
S Barth, M Huth, F Jungwirth
Journal of Materials Chemistry C 8 (45), 15884-15919, 2020
Universal conductance correction in a tunable strongly coupled nanogranular metal
R Sachser, F Porrati, CH Schwalb, M Huth
Physical Review Letters 107 (20), 206803, 2011
Highly Ordered Fe and Nb Stripe Arrays on Facetted α‐Al2O3 (10 ̄1 0)
M Huth, KA Ritley, J Oster, H Dosch, H Adrian
Advanced Functional Materials 12 (5), 333-338, 2002
Mobile fluxons as coherent probes of periodic pinning in superconductors
OV Dobrovolskiy, M Huth, VA Shklovskij, RV Vovk
Scientific Reports 7, 13740, 2017
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