Jurgen Lindner
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Explore the profile of Jurgen Lindner including associated specialties, affiliations and a list of published articles.
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30
Citations
166
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Recent Articles
1.
Salikhov R, Ilyakov I, Reinold A, Deinert J, Oliveira T, Ponomaryov A, et al.
Nat Commun
. 2025 Mar;
16(1):2249.
PMID: 40050261
The ultrafast control of magnetisation states in magnetically ordered systems poses significant technological challenges yet is vital for the development of memory devices that operate at picosecond timescales or terahertz...
2.
Salikhov R, Lysne M, Werner P, Ilyakov I, Schuler M, Oliveira T, et al.
Npj Spintron
. 2025 Jan;
3(1):3.
PMID: 39882020
The interplay of electronic charge, spin, and orbital currents, coherently driven by picosecond long oscillations of light fields in spin-orbit coupled systems, is the foundation of emerging terahertz lightwave spintronics...
3.
Iurchuk V, Lindner J, Fassbender J, Kakay A
Phys Rev Lett
. 2024 Oct;
133(14):146701.
PMID: 39423401
We demonstrate the excitation of the gyrotropic mode in a magnetostrictive vortex by time-varying strain. The vortex dynamics is driven by a time-varying voltage applied to the piezoelectric substrate and...
4.
Kovalev S, Ilyakov I, Reinold A, Pilch P, Zhu C, Ghalgaoui A, et al.
Opt Lett
. 2024 Aug;
49(16):4749-4752.
PMID: 39146151
In this Letter, we demonstrate terahertz (THz) magnetic field detection in fused silica with sensitivity that can be easily controlled by sample tilting (for both amplitude and polarization). The proposed...
5.
Gallardo R, Weigand M, Schultheiss K, Kakay A, Mattheis R, Raabe J, et al.
ACS Nano
. 2024 Feb;
PMID: 38314709
Nonreciprocal wave propagation arises in systems with broken time-reversal symmetry and is key to the functionality of devices, such as isolators or circulators, in microwave, photonic, and acoustic applications. In...
6.
Dowling R, Narkowicz R, Lenz K, Oelschlagel A, Lindner J, Kostylev M
Nanomaterials (Basel)
. 2024 Jan;
14(1).
PMID: 38202474
We demonstrated resonance-based detection of magnetic nanoparticles employing novel designs based upon planar (on-chip) microresonators that may serve as alternatives to conventional magnetoresistive magnetic nanoparticle detectors. We detected 130 nm...
7.
Ilyakov I, Brataas A, Oliveira T, Ponomaryov A, Deinert J, Hellwig O, et al.
Nat Commun
. 2023 Nov;
14(1):7010.
PMID: 37919284
Efficient generation and control of spin currents launched by terahertz (THz) radiation with subsequent ultrafast spin-to-charge conversion is the current challenge for the next generation of high-speed communication and data...
8.
Iurchuk V, Pablo-Navarro J, Hula T, Narkowicz R, Hlawacek G, Korber L, et al.
Sci Rep
. 2023 Jan;
13(1):764.
PMID: 36641510
1D spin-wave conduits are envisioned as nanoscale components of magnonics-based logic and computing schemes for future generation electronics. À-la-carte methods of versatile control of the local magnetization dynamics in such...
9.
Cansever H, Anwar M, Stienen S, Lenz K, Narkowicz R, Hlawacek G, et al.
Sci Rep
. 2022 Aug;
12(1):14809.
PMID: 36045141
The ferromagnetic resonance of a disordered A2 FeAl ferromagnetic stripe, of dimensions 5 µm × 1 µm × 32 nm, has been observed in two vastly differing surroundings: in the...
10.
Gallardo R, Alvarado-Seguel P, Brevis F, Roldan-Molina A, Lenz K, Lindner J, et al.
Nanomaterials (Basel)
. 2022 Aug;
12(16).
PMID: 36014650
Magnetization-graded ferromagnetic nanostrips are proposed as potential prospects to channel spin waves. Here, a controlled reduction of the saturation magnetization enables the localization of the propagating magnetic excitations in the...