Publications and Theses

Preprints & Submitted Manuscripts

47. Readout of a antiferromagnetic spintronics systems by strong exchange coupling of Mn2Au and Permalloy
S.P. Bommanaboyena, D. Backes, L. S. I. Veiga, S. S. Dhesi, Y. R. Niu, B. Sarpi, T. Denneulin, A. Kovacs, T. Mashoff, O. Gomonay, J. Sinova, K. Everschor-Sitte, D. Schönke, R. M. Reeve, M. Kläui, H.-J. Elmers, M. Jourdan
Fig.1 Spin-wave driven bidirectional domain wall motion in kagome antiferromagnets46. Spin-wave driven bidirectional domain wall motion in kagome antiferromagnets
D. R. Rodrigues, A. Salimath, K. Everschor-Sitte, and K. M. D. Hals
45. Physically-inspired computational tools for sharp detection of material inhomogeneities in magnetic imaging
I. Horenko, D. Rodrigues, T. O’Kane, K. Everschor-Sitte



44. Current-induced H-shaped-skyrmion creation and their dynamics in the helical phase
R. Knapman, D. R. Rodrigues, J. Masell, K. Everschor-Sitte
J. Phys. D: Appl. Phys. 54 404003 or arXiv:2105.06859
43. Nonlinear dynamics of topological ferromagnetic textures for frequency multiplication
D. R. Rodrigues, J. Nothhelfer, M. Mohseni, R. Knapman, P. Pirro, K. Everschor-Sitte
Phys. Rev. Applied 16, 014020 or arXiv:2012.11481

42. Current-Induced Dynamics of Chiral Magnetic Structures: Creation, Motion, and Applications
J. Masell and K. Everschor-Sitte
Book chapter in Chirality, Magnetism and Magnetoelectricity, 2021, Springer, Pages 147-181 or arXiv:2004.13535
41. A deeper look into natural sciences with physics-based and data-driven measures
D.R. Rodrigues, K. Everschor-Sitte, S. Gerber and I. Horenko
iScience 24, 3 (2021)
40. The promise of spintronics for unconventional computing
G. Finocchio, M. Di Ventra, K. Y. Camsari, K. Everschor-Sitte, P. K. Amiri, Z. Zeng
Journal of Magnetism and Magnetic Materials 521, 167506 (2021) or arXiv:1910.07176
39. Reliability of genomic variants across different next-generation sequencing platforms and bioinformatic processing pipelines
Stephan Weißbach, Stanislav Sys, Charlotte Hewel, Hristo Todorov, Susann Schweiger, Jennifer Winter, Markus Pfenninger, Ali Torkamani, Doug Evans, Joachim Burger, Karin Everschor-Sitte, Helen Louise May-Simera, Susanne Gerber
BMC Genomics 22, 62 (2021)


38. Large Surface Magnetization in Noncentrosymmetric Antiferromagnets
M. A. Lund, K. Everschor-Sitte and K. M. D. Hals
Physical Review B 102, 180412(R) (2020) or arXiv:2006.10435
37. Reservoir Computing with Random Skyrmion Textures
D. Pinna, G. Bourianoff, K. Everschor-Sitte
Physical Review Applied 14, 054020 (2020) or arXiv:1811.12623
36. The 2020 Magnetism Roadmaps
E. Y. Vedmedenko, R. K. Kawakami, D. D. Sheka, P. Gambardella, A. Kirilyuk, A. Hirohata, C. Binek, O. Chubykalo-Fesenko, S. Sanvito, B. J. Kirby, J. Grollier, K. Everschor-Sitte, T. Kampfrath, C. Y. You and A. Berger
Journal of Physics D: Applied Physics 53, 453001 (2020)
35. The 2020 Skyrmionics Roadmap
C. Back, V. Cros, H. Ebert, K. Everschor-Sitte, A. Fert, M. Garst, T. Ma, S. Mankovsky, T. Monchesky, M. Mostovoy, N. Nagaosa, S. Parkin, C. Pfleiderer, N. Reyren, A. Rosch, Y. Taguchi, Y. Tokura, K. von Bergmann and J. Zang
Journal of Physics D: Applied Physics 53, 363001 (2020) or arXiv:2001.00026
34. Spin-transfer torque driven motion, deformation, and instabilities of magnetic skyrmions at high currents
J. Masell, D.R. Rodrigues, B.F. McKeever, and K. Everschor-Sitte
Physical Review B 101, 214428 (2020) or arXiv:2004.00450
33. Facilitating domain wall injection in magnetic nanowires by electrical means
D.R. Rodrigues, N. Sommer, and K. Everschor-Sitte
Physical Review B 101, 224410 (2020) or arXiv:2004.07546
32. Neuromorphic Spintronics
J. Grollier, D. Querlioz, K. Y. Camsari, K. Everschor-Sitte, S. Fukami, M. D. Stiles
Nature Electronics 3, 360 (2020) or arXiv:2007.06092
31. Berry curvature for magnetoelastic waves
A. Okamoto, S. Murakami, and K. Everschor-Sitte
Physical Review B 101, 064424 (2020)
30. Stability and dynamics of in-plane skyrmions in collinear ferromagnets
R. Zarzuela, VK Bharadwaj, K-W Kim, J. Sinova, K. Everschor-Sitte
Physical Review B 101, 054405 (2020) or arXiv:1910.00987
29.* Chiral excitations of magnetic droplet solitons driven by their own inertia
M. Mohseni, D. R. Rodrigues, M. Saghafi, S. Chung, M. Ahlberg, H. F. Yazdi, Q. Wang, S. A. H. Banuazizi, P. Pirro, J. Åkerman, and M. Mohseni
Physical Review B 101, 020417(R) (2020) or arXiv:1905.01085
28. The role of temperature and drive current in skyrmion dynamics
K. Litzius, J. Leliaert, P. Bassirian, D. Rodrigues, S. Kromin, I. Lemesh, J. Zazvorka, K-J. Lee, J. Mulkers, N. Kerber, D. Heinze, N. Keil, R. M. Reeve, M. Weigand, B. Van Waeyenberge, G. Schütz, K. Everschor-Sitte, G. S. D. Beach, and M. Kläui
Nature Electronics 3, 30 (2020)



27. Topological characterization of classical waves: The topological origin of magnetostatic surface spin waves
K. Yamamoto, G. C. Thiang, P. Pirro, K-W. Kim, K. Everschor-Sitte, and E. Saitoh,
Physical Review Letters 122, 217201 (2019) or arxiv:1905.07909
26. Spin eigen-excitations of an antiferromagnetic skyrmion
V. P. Kravchuk, O. Gomonay, D. D. Sheka, D. R. Rodrigues, K. Everschor-Sitte, J. Sinova, J. van den Brink, Y. Gaididei
Physical Review B 99, 184429 (2019) or arxiv:1902.09846
25. Thermal skyrmion diffusion applied in probabilistic computing
J. Zázvorka, F. Jakobs, D. Heinze, N. Keil, S. Kromin, S. Jaiswal, K. Litzius, G. Jakob, P. Virnau, D. Pinna, K. Everschor-Sitte, A. Donges, U. Nowak, M. Kläui
Nature Nanotechnology 14, 658–661 (2019) or arxiv:1805.05924
24. Unidirectional Magnon-Driven Domain Wall Motion
Due to the Interfacial Dzyaloshinskii-Moriya Interaction

K-W. Kim, S-W. Lee, J-H. Moon, G. Go, A. Manchon, H-W. Lee, K. Everschor-Sitte, and K-J. Lee
Physical Review Letters 122, 147202 (2019) or arxiv:1803.10776
23. Twists in Ferromagnetic Monolayers With Trigonal Prismatic Symmetry
K. M. D. Hals, K. Everschor-Sitte
Physical Review B 99, 104422 (2019) or arxiv:1812.07361
22. Characterizing breathing dynamics of magnetic skyrmions and antiskyrmions with the Hamiltonian formalism
B. F. McKeever, D. R. Rodrigues, D. Pinna, Ar. Abanov, Jairo Sinova and K. Everschor-Sitte
Physical Review B 99, 054430 (2019) or arXiv:1811.1811.09949

Editor's suggestion



21. Perspective: Magnetic Skyrmions - overview of recent progress in an active research field
K. Everschor-Sitte, J. Masell, R. M. Reeve, and M. Kläui
Journal of Applied Physics 124, 240901 (2018)

Featured article & cover image
20. Let’s twist again
K. Everschor-Sitte
Physik Journal 09/2018, page:49

DPG prize winner article
Figure created by Marco Armbruster
19. The effect of boundary-induced chirality on magnetic textures in thin films,
J. Mulkers, K. M. D. Hals, J. Leliaert, M. V. Milošević, B. Van Waeyenberge, K. Everschor-Sitte
Physical Review B 98, 064429 (2018) or arXiv:1805.11110

Editor's suggestion
18. Asymmetric skyrmion Hall effect in systems with a hybrid Dzyaloshinskii-Moriya interaction,
K-W. Kim, K-W. Moon, N. Kerber, J. Nothhelfer, K. Everschor-Sitte

Physical Review B 97, 224427 (2018)
or arXiv:1802.07327
17. Painting and erasing skyrmions,
K. Everschor-Sitte, J. Sinova, Ar. Abanov
Nature Electronics 1, 266–267 (2018)

Figure created by Karin Everschor and Marco Armbruster
16. Effective description of domain wall strings,
Davi R. Rodrigues, Ar. Abanov, J. Sinova, K. Everschor-Sitte
Physical Review B 97, 134414 (2018) or arXiv:1712.09918
15. Roles of chiral renormalization on magnetization dynamics in chiral magnets,
K-W. Kim, H-W. Lee, K-J. Lee, K. Everschor-Sitte, O. Gomonay, J. Sinova
Physical Review B 97, 104402(R) (2018) or arXiv:1803.00017
14. Potential implementation of Reservoir Computing models based on magnetic skyrmions,
G. Bourianoff, D. Pinna, M. Sitte, K. Everschor-Sitte
AIP Advances 8, 055602 (2018) or arXiv:1709.08911
13. A magnetic skyrmion as a non-linear resistive element - a potential building block for reservoir computing,
D. Prychynenko, M. Sitte, K. Litzius, B. Krüger, G. Bourianoff, M. Kläui, J. Sinova, K. Everschor-Sitte
Physical Review Applied 9, 014034 (2018) or arXiv:1702.04298





12. Boundary-Driven Twist States in Systems with Broken Spatial Inversion Symmetry,
K. M. D. Hals, K. Everschor-Sitte
Physical Review Letters 119, 127203 (2017) or arXiv:1706.09026
11. Skyrmion production on demand by homogeneous DC currents,
K. Everschor-Sitte, M. Sitte, T. Valet, A. Abanov and J. Sinova
New Journal of Physics 19, 092001 (2017) or arXiv:1610.08313
10. Spin texture motion in antiferromagnetic and ferromagnetic nanowires,
D. R. Rodrigues, K. Everschor-Sitte, O. A. Tretiakov, J. Sinova, A. Abanov
Physical Review B 95, 174408 (2017) or arXiv:1702.06274




2010 - 2016

9. Current-driven periodic domain wall creation in ferromagnetic nanowires,
M. Sitte, K. Everschor-Sitte, T. Valet, D. R. Rodrigues, J. Sinova and A. Abanov
Physical Review B 94, 064422 (2016) or arXiv:1607.03336
8. Interaction Correction to the Magneto-Electric Polarizability of Z2 Topological Insulators,
K. Everschor-Sitte, M. Sitte and A. H. MacDonald
Physical Review B 92, 245118 (2015) or arXiv:1508.03213

Editor's suggestion.
7. Half-metallic magnetism and the search for better spin valves,
K. Everschor-Sitte, M. Sitte and A. H. MacDonald
Journal of Applied Physics 116, 083906 (2014) or arXiv:1407.5240
6. Real-space Berry phases: Skyrmion soccer, K. Everschor-Sitte and M. Sitte
Journal of Applied Physics 115, 172602 (2014), FEATURED ARTICLE or arXiv:1405.0987

Issue cover figure, of Journal of Applied Physics 115.
5. Rotating skyrmion lattices by spin torques and field or temperature gradients, K. Everschor, M. Garst, B. Binz, F. Jonietz, S. Mühlbauer, C. Pfleiderer and A. Rosch
Physical Review B 86, 054432 (2012) or arXiv:1204.5051
4. Emergent electrodynamics of skyrmions in a chiral magnet,
T. Schulz, R. Ritz, A. Bauer, M. Halder, M. Wagner, C. Franz, C. Pfleiderer, K. Everschor, M. Garst and A. Rosch
Nature Physics 8, 301-304 (2012) or arXiv:1202.1176
3. Long-range crystalline nature of the skyrmion lattice in MnSi,
T. Adams, S. Mühlbauer, C. Pfleiderer, F. Jonietz, A. Bauer, A. Neubauer, R. Georgii, P. Böni, U. Keiderling, K. Everschor, M. Garst, and A. Rosch
Physical Review Letters 107, 217206 (2011) or arXiv:1107.0993</a
2. Current-induced rotational torques in the skyrmion lattice phase of chiral magnets, K. Everschor, M. Garst, R. A. Duine, and A. Rosch
Physical Review B 84, 064401 (2011) or arXiv:1103.5548
1. Spin Transfer Torques in MnSi at Ultralow Current Densities
F. Jonietz, S. Mühlbauer, C. Pfleiderer, A. Neubauer, W. Münzer, A. Bauer, T. Adams, R. Georgii, P. Böni, R. A. Duine, K. Everschor, M. Garst, and A. Rosch
Science 330, 1648 (2010) or arXiv:1012.3496




PhD Theses

Current-Induced Dynamics of Chiral Magnetic Structures;
Skyrmions, Emergent Electrodynamics and Spin-Transfer Torques;

Karin Everschor-Sitte, 2012
List of Comments_and_Corrections_PhD_Thesis_Karin_Everschor to PhD Thesis in Physics


Master and Diploma Theses

Domain wall injection in antiferromagnets
Raphael Kromin, 2021

Antiferromagnetic Domains in presence of Magnetoelastic Interactions
Bennet Karetta, 2021

Thermally Driven Inversion of Nanomagnetic Logic
Timo Pulch, 2020

Critical domain wall behavior in chiral magnetic nanowires induced by spin polarized currents
Nils Sommer, 2019

Localized Majorana modes in superconductor-ferromagnet heterostructures - A path towards topological quantum computation
Jonas Nothhelfer, 2019 (submitted version)

Manipulating Magnetic Structures in Chiral Metals by Currents
Karin Everschor-Sitte, 2009

Asymptotisches Verhalten für eine Familie nichtlinearer elliptischer
Differentialgleichungen im Minkowski Raum

Karin Everschor-Sitte, 2008


Bachelor Theses

Composite Topological Structures in Superconductor-Ferromagnet Heterostructures
Lucas Görzen, 2021

Pattern recognition in the 2D-Ising model with neural networks
Lukas Holzbeck, 2019

Analyse der lokalen Zustandsdichte der Kitaev-Kette
Stephan Kessler, 2019

Stromgetriebene Domänenwanderzeugung in ferromagnetischen Nanodrähten
Nils Sommer, 2017