PD Dr. Kirsten von Bergmann
Senior Researcher
Scanning Probe Methods
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Curriculum Vitae
current status | Permanent scientific staff at the Department of Physics, University of Hamburg Main research interests: non-collinear magnetic order, skyrmions, higher-order magnetic interactions |
2019/2020 | Habilitation in experimental physics: Non-collinear Magnetism in ultrathin films and Privat-Dozentur at University of Hamburg |
2013 | Gaede-Prize of the German Vacuum Society (DVG) |
2008 |
Visiting researcher in the Group of Dr. A. Heinrich, IBM Almaden Research Center, San Jose, USA with a research scholarship (Forschungsstipendium) of the German Science Foundation (DFG) |
since 2004 | Postdoctoral research fellow in the group of Prof. Dr. R. Wiesendanger Institute of Applied Physics, University of Hamburg (permanent since 2007) |
2004 | Award Förderpreis der Hamburgischen Stiftung für Wissenschaften, Entwicklung und Kultur Helmut und Hannelore Greve |
2004 |
Award Excellent Dissertation Department of Physics, University of Hamburg |
2000-2004 |
PhD-thesis in the group of Prof. R. Wiesendanger, Institute of Applied Physics, University of Hamburg, Germany Iron nanostructures studied by spin-polarised scanning tunneling microscopy |
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Research
The topic of non-collinear magnetism in ultrathin films and the advancement of spin-polarized scanning tunneling microscopy have been my main research interests for the past years. The first discovery of a nano-scale magnetic ground state, i.e. one that is neither ferromagnetic nor antiferromagnetic, in an ultrathin film, was enabled by the combination of high spatial resolution and spin sensitivity of spin-polarized scanning tunneling microscopy. In the following years we have discovered a variety of different complex spin textures with this method and the strong collaboration between our experimental group with theory has facilitated an in-depth understanding of several mechanisms that lead to nano-scale non-collinear magnetic order.
Sketch of a magnetic skyrmion, cones resemble atomic magnetic moments.
In general, complex magnetic order can occur when different magnetic interactions compete. Driving forces for nano-scale magnetic order include frustration of exchange interactions, higher-order magnetic interactions, and the Dzyaloshinskii-Moriya interactions. The latter one can arise in systems with broken inversion symmetry, such as surfaces and interfaces, and it prefers one rotational sense of magnetization rotation over the other. Competition of Heisenberg exchange and Dzyaloshinskii-Moriya interactions can lead to the formation of magnetic skyrmions which have gained a lot of attention in recent years. They are particle-like knots in the magnetization with a material-specific unique rotational sense, that are envisioned as building blocks for future spintronic devices.
The spins of a skyrmion wrap the unit sphere once.
Track Record
ORCID: 0000-0002-4514-3254
Researcher ID: S-5696-2016
Conferences (recent and upcoming)
2023 Sep | JEMS in Madrid, Spain, invited |
2023 Jul | MML in Seoul, Korea, invited |
2023 Apr | KPS in Daejeon, Korea, invited |
2022 Sep | DPG conference in Regensburg, invited |
2021 Oct 27 | SPICE semiar, virtual |
2021 Sep 29 | DPG meeting, virtual (contributed) |
2021 Jun 29 | Topological Matter Conference, virtual (invited) |
2021 Mar 18 | APS march meeting, virtual (invited) |
2021 Mar 03 | DPG SurfaceScience21, virtual (invited) |
2020 Nov 27 | Colloquium at PSI, virtual |
Funding and Projects
2023-2026 | DFG | Gepris 418425860 1 PhD position (3 years) Magnetic ground states and higher-order interactions beyond monolayers |
2022-2025 | DFG | SPP 2137, Gepris 402843438 1 PhD position (3 years) Antiferromagnetic Skyrmions in ultra-thin oxide films |
2021-2024 | EU | SPEAR-ITN 2 PhD positions (3 years each) Spin-orbit Material, Emergent Phenomena and Related Technologies Training |
2019-2022 | DFG | Gepris 418425860 1 PhD position (3 years) Magnetic ground states at surfaces driven by higher-order exchange interactions |
2018-2021 | DFG | SPP 2137, Gepris 402843438 1 PhD position (3 years) Skyrmion–Skyrmion and Skyrmion–Edge Interactions studied with STM |
2006-2017 | DFG | SFB 668, Gepris 13002249 ~2 PhD positions (at all times during the 12 years) A1: Magnetic Spectroscopy of single atoms, chains, and nanostructures A8: Spin-dependent local electronic structure of single magnetic nano-wires and nano-islands |
download complete CV, Track Record, and other information
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Teaching
summer terms (since 2019) |
Lecture and Exercises (Master level) on Surface Science and Magnetism (together with Jens Wiebe) 66-312 Nanostrukturphysik II - Magnetismus und Oberflächenphysik |
every semester (since 2001) |
practical courses in scanning or magnetic force microscopy (or magnetic simulations – digital) for Bachelor of Physics and Bachelor of Nanoscience studies (INF13 or V1) (approx 4 groups each semester) |
summer terms (2009-2015) |
exercises in Solid State Physics |
(for more information see download in track record)