Lukas Flajsman
Cited by
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Nanoscale magnonic Fabry-Pérot resonator for low-loss spin-wave manipulation
H Qin, RB Holländer, L Flajšman, F Hermann, R Dreyer, G Woltersdorf, ...
Nature communications 12 (1), 2293, 2021
Nanometer-sized water bridge and pull-off force in AFM at different relative humidities: Reproducibility measurement and model based on surface tension change
M Bartošík, L Kormoš, L Flajšman, R Kalousek, J Mach, Z Lišková, ...
The Journal of Physical Chemistry B 121 (3), 610-619, 2017
Research Update: Focused ion beam direct writing of magnetic patterns with controlled structural and magnetic properties
M Urbánek, L Flajšman, V Křižáková, J Gloss, M Horký, M Schmid, ...
APL Materials 6 (6), 2018
Dynamics and efficiency of magnetic vortex circulation reversal
M Urbánek, V Uhlíř, CH Lambert, JJ Kan, N Eibagi, M Vaňatka, ...
Physical Review B 91 (9), 094415, 2015
Propagation of spin waves through a Néel domain wall
O Wojewoda, T Hula, L Flajšman, M Vaňatka, J Gloss, J Holobrádek, ...
Applied Physics Letters 117 (2), 2020
Spin-wave emission from vortex cores under static magnetic bias fields
S Mayr, L Flajšman, S Finizio, A Hrabec, M Weigand, J Förster, H Stoll, ...
Nano Letters 21 (4), 1584-1590, 2021
Bypassing dynamical freezing in artificial kagome ice
V Schánilec, B Canals, V Uhlíř, L Flajšman, J Sadílek, T Šikola, ...
Physical Review Letters 125 (5), 057203, 2020
High-resolution fully vectorial scanning Kerr magnetometer
L Flajšman, M Urbánek, V Křižáková, M Vaňatka, I Turčan, T Šikola
Review of Scientific Instruments 87 (5), 2016
Low-loss nanoscopic spin-wave guiding in continuous yttrium iron garnet films
H Qin, RB Hollander, L Flajšman, S van Dijken
Nano Letters 22 (13), 5294-5300, 2022
Zero-field propagation of spin waves in waveguides prepared by focused ion beam direct writing
L Flajšman, K Wagner, M Vaňatka, J Gloss, V Křižáková, M Schmid, ...
Physical Review B, 2019
Spin wave propagation in corrugated waveguides
I Turčan, L Flajšman, O Wojewoda, V Roučka, O Man, M Urbánek
Applied Physics Letters 118 (9), 2021
Magnetic vortex nucleation modes in static magnetic fields
M Vaňatka, M Urbánek, R Jíra, L Flajšman, M Dhankhar, MY Im, ...
AIP Advances 7 (10), 2017
Tuning of Magnetic Damping in Y3Fe5O12/Metal Bilayers for Spin-Wave Conduit Termination
A Krysztofik, N Kuznetsov, H Qin, L Flajšman, E Coy, S van Dijken
Materials 15 (8), 2814, 2022
Freestanding positionable microwave-antenna device for magneto-optical spectroscopy experiments
T Hache, M Vaňatka, L Flajšman, T Weinhold, T Hula, O Ciubotariu, ...
Physical Review Applied 13 (5), 054009, 2020
Electric field control of RKKY coupling through solid-state ionics
M Ameziane, R Rosenkamp, L Flajšman, S van Dijken, R Mansell
Applied Physics Letters 122 (23), 2023
Solid-state lithium ion supercapacitor for voltage control of skyrmions
M Ameziane, J Huhtasalo, L Flajsman, R Mansell, S van Dijken
Nano Letters 23 (8), 3167-3173, 2023
Vectorial Kerr magnetometry
L Flajšman
Master’s thesis, Brno University of Technology, Faculty of Mechanical …, 2015
APL Mater. 6, 060701 (2018)
M Urbánek, L Flajšman, V Křižáková, J Gloss, M Horký, M Schmid, ...
Imaging of short-wavelength spin waves in a nanometer-thick YIG/Co bilayer
A Talapatra, H Qin, F Schulz, L Yao, L Flajšman, M Weigand, S Wintz, ...
Applied Physics Letters 122 (20), 2023
Element-sensitive x-ray absorption spectroscopy and magnetometry of high-entropy oxide perovskite thin films
A Farhan, M Cocconcelli, F Stramaglia, N Kuznetsov, L Flajšman, M Wyss, ...
Physical Review Materials 7 (4), 044402, 2023
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