Institution
Leibniz Institute for Solid State and Materials Research
Facility•Dresden, Germany•
About: Leibniz Institute for Solid State and Materials Research is a facility organization based out in Dresden, Germany. It is known for research contribution in the topics: Amorphous metal & Magnetization. The organization has 319 authors who have published 255 publications receiving 4776 citations.
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TL;DR: It is theoretically shown that skyrmion textures may form spontaneously in condensed-matter systems with chiral interactions without the assistance of external fields or the proliferation of defects, within a phenomenological continuum model based on a few material-specific parameters that can be determined experimentally.
Abstract: Since the 1950s, Heisenberg and others have addressed the problem of how to explain the appearance of countable particles in continuous fields. Stable localized field configurations were searched for an ingredient for a general field theory of elementary particles, but the majority of nonlinear field models were unable to predict them. As an exception, Skyrme succeeded in describing nuclear particles as localized states, so-called 'skyrmions'. Skyrmions are a characteristic of nonlinear continuum models ranging from microscopic to cosmological scales. Skyrmionic states have been found under non-equilibrium conditions, or when stabilized by external fields or the proliferation of topological defects. Examples are Turing patterns in classical liquids, spin textures in quantum Hall magnets, or the blue phases in liquid crystals. However, it has generally been assumed that skyrmions cannot form spontaneous ground states, such as ferromagnetic or antiferromagnetic order, in magnetic materials. Here, we show theoretically that this assumption is wrong and that skyrmion textures may form spontaneously in condensed-matter systems with chiral interactions without the assistance of external fields or the proliferation of defects. We show this within a phenomenological continuum model based on a few material-specific parameters that can be determined experimentally. Our model has a condition not considered before: we allow for softened amplitude variations of the magnetization, characteristic of, for instance, metallic magnets. Our model implies that spontaneous skyrmion lattice ground states may exist generally in a large number of materials, notably at surfaces and in thin films, as well as in bulk compounds, where a lack of space inversion symmetry leads to chiral interactions.
1,549 citations
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TL;DR: The experimental manifestation of another type of skyrmions—the magnetic antiskyrmion—in acentric tetragonal Heusler compounds with D2d crystal symmetry is presented, which enlarge the family of magnetic skyr mions and pave the way to the engineering of complex bespoke designed skyrMionic structures.
Abstract: Magnetic skyrmions are topologically stable, vortex-like objects surrounded by chiral boundaries that separate a region of reversed magnetization from the surrounding magnetized material. They are closely related to nanoscopic chiral magnetic domain walls, which could be used as memory and logic elements for conventional and neuromorphic computing applications that go beyond Moore’s law. Of particular interest is ‘racetrack memory’, which is composed of vertical magnetic nanowires, each accommodating of the order of 100 domain walls, and that shows promise as a solid state, non-volatile memory with exceptional capacity and performance. Its performance is derived from the very high speeds (up to one kilometre per second) at which chiral domain walls can be moved with nanosecond current pulses in synthetic antiferromagnet racetracks. Because skyrmions are essentially composed of a pair of chiral domain walls closed in on themselves, but are, in principle, more stable to perturbations than the component domain walls themselves, they are attractive for use in spintronic applications, notably racetrack memory. Stabilization of skyrmions has generally been achieved in systems with broken inversion symmetry, in which the asymmetric Dzyaloshinskii–Moriya interaction modifies the uniform magnetic state to a swirling state. Depending on the crystal symmetry, two distinct types of skyrmions have been observed experimentally, namely, Bloch and Neel skyrmions. Here we present the experimental manifestation of another type of skyrmion—the magnetic antiskyrmion—in acentric tetragonal Heusler compounds with D$_{2d}$ crystal symmetry. Antiskyrmions are characterized by boundary walls that have alternating Bloch and Neel type as one traces around the boundary. A spiral magnetic ground-state, which propagates in the tetragonal basal plane, is transformed into an antiskyrmion lattice state under magnetic fields applied along the tetragonal axis over a wide range of temperatures. Direct imaging by Lorentz transmission electron microscopy shows field-stabilized antiskyrmion lattices and isolated antiskyrmions from 100 kelvin to well beyond room temperature, and zero-field metastable antiskyrmions at low temperatures. These results enlarge the family of magnetic skyrmions and pave the way to the engineering of complex bespoke designed skyrmionic structures.
550 citations
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TL;DR: In this article, a comprehensive overview of the experimental and theoretical topics related to the introduction of nitrogen into both single and multi-walled carbon nanotube structures is provided, and a comparison with other nitrogen-doped carbon systems is also provided.
505 citations
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TL;DR: In this paper, large-eddy simulations of an isothermal Mach 0.9 jet issued from a convergent-straight nozzle are performed at a diameter-based Reynolds number of 1 x 10^6.
Abstract: To investigate the effects of the nozzle-exit conditions on jet flow and sound fields, large-eddy simulations of an isothermal Mach 0.9 jet issued from a convergent-straight nozzle are performed at a diameter-based Reynolds number of 1 x 10^6. The simulations feature near-wall adaptive mesh refinement, synthetic turbulence and wall modelling inside the nozzle. This leads to fully turbulent nozzle-exit boundary layers and results in significant improvements for the flow field and sound predictions compared with those obtained from the typical approach based on laminar flow in the nozzle. The far-field pressure spectra for the turbulent jet match companion experimental measurements, which use a boundary-layer trip to ensure a turbulent nozzle-exit boundary layer to within 0.5 dB for all relevant angles and frequencies. By contrast, the initially laminar jet results in greater high-frequency noise. For both initially laminar and turbulent jets, decomposition of the radiated noise into azimuthal Fourier modes is performed, and the results show similar azimuthal characteristics for the two jets. The axisymmetric mode is the dominant source of sound at the peak radiation angles and frequencies. The first three azimuthal modes recover more than 97 % of the total acoustic energy at these angles and more than 65 % (i.e. error less than 2 dB) for all angles. For the main azimuthal modes, linear stability analysis of the near-nozzle mean-velocity profiles is conducted in both jets. The analysis suggests that the differences in radiated noise between the initially laminar and turbulent jets are related to the differences in growth rate of the Kelvin–Helmholtz mode in the near-nozzle region.
162 citations
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TL;DR: In this paper, NdFeB films were sputtered onto 100mm Si substrates using high rate sputtering (18μm∕h) and then annealed at 750°C for 10min.
Abstract: 5μm thick NdFeB films have been sputtered onto 100mm Si substrates using high rate sputtering (18μm∕h) Films were deposited at ⩽500°C and then annealed at 750°C for 10min While films deposited at temperatures up to 450°C have equiaxed grains, the size of which decreases with increasing deposition temperature, the films deposited at 500°C have columnar grains The out-of-plane remanent magnetization increases with deposition temperature, reaching a maximum value of 14T, while the coercivity remains constant at about 16T The maximum energy product achieved (400kJ∕m3) is comparable to that of high-quality NdFeB sintered magnets
154 citations
Authors
Showing all 333 results
Name | H-index | Papers | Citations |
---|---|---|---|
Oliver G. Schmidt | 100 | 1083 | 39988 |
Jürgen Eckert | 92 | 1368 | 42119 |
Bernd Büchner | 80 | 1246 | 31077 |
Ludwig Schultz | 70 | 736 | 20839 |
Kornelius Nielsch | 65 | 488 | 21349 |
Oliver Gutfleisch | 64 | 588 | 18198 |
Mark H. Rümmeli | 63 | 403 | 14536 |
Gianaurelio Cuniberti | 63 | 572 | 15624 |
Samuel Sanchez | 62 | 194 | 12864 |
Armando Rastelli | 61 | 316 | 10688 |
Thomas Pichler | 58 | 383 | 12225 |
Jeroen van den Brink | 53 | 347 | 12532 |
Martin Knupfer | 52 | 332 | 9809 |
Helmut Ehrenberg | 52 | 572 | 14087 |
Ludwig Schultz | 51 | 467 | 11060 |