Spontaneous atomic-scale magnetic skyrmion lattice in two dimensions
about
Topological, non-topological and instanton droplets driven by spin-transfer torque in materials with perpendicular magnetic anisotropy and Dzyaloshinskii-Moriya Interaction.Antiferromagnetic Skyrmion: Stability, Creation and Manipulation.Voltage Controlled Magnetic Skyrmion Motion for Racetrack MemoryMagnetic bilayer-skyrmions without skyrmion Hall effect.Skyrmion-skyrmion and skyrmion-edge repulsions in skyrmion-based racetrack memoryMagnetic skyrmion transistor: skyrmion motion in a voltage-gated nanotrackDynamically stabilized magnetic skyrmions.Theory of skyrmions in bilayer systems.Direct experimental determination of the topological winding number of skyrmions in Cu2OSeO3.An Improved Racetrack Structure for Transporting a Skyrmion.Spin-orbit torque-driven skyrmion dynamics revealed by time-resolved X-ray microscopyFlower-like dynamics of coupled Skyrmions with dual resonant modes by a single-frequency microwave magnetic field.Tailoring magnetic skyrmions in ultra-thin transition metal films.A reversible conversion between a skyrmion and a domain-wall pair in a junction geometry.Realization of ground-state artificial skyrmion lattices at room temperatureEnd station for nanoscale magnetic materials study: combination of scanning tunneling microscopy and soft X-ray magnetic circular dichroism spectroscopy.Real-space anisotropic dielectric response in a multiferroic skyrmion lattice.Manipulating topological states by imprinting non-collinear spin textures.Two-dimensional skyrmions and other solitonic structures in confinement-frustrated chiral nematics.Guided current-induced skyrmion motion in 1D potential well.Emergence of spin-orbit fields in magnetotransport of quasi-two-dimensional iron on gallium arsenideDiscovery of stable skyrmionic state in ferroelectric nanocomposites.Microwave field frequency and current density modulated skyrmion-chain in nanotrackUniaxial stress control of skyrmion phase.Stability of single skyrmionic bits.Skyrmion motion driven by oscillating magnetic field.Skyrmion Creation and Manipulation by Nano-Second Current PulsesCoexistence of charge and ferromagnetic order in fcc Fe.Magnetic neutron scattering by magnetic vortices in thin submicron-sized soft ferromagnetic cylinders.Field-driven Domain Wall Motion in Ferromagnetic Nanowires with Bulk Dzyaloshinskii-Moriya Interaction.Engineering skyrmions in transition-metal multilayers for spintronics.Large anomalous Nernst effect in a skyrmion crystalk-asymmetric spin-splitting at the interface between transition metal ferromagnets and heavy metalsCreation of artificial skyrmions and antiskyrmions by anisotropy engineering.Voltage controlled core reversal of fixed magnetic skyrmions without a magnetic field.Transition to and from the skyrmion lattice phase by electric fields in a magnetoelectric compoundProbing the spinor nature of electronic states in nanosize non-collinear magnets.Chirality-driven orbital magnetic moments as a new probe for topological magnetic structures.General planar transverse domain walls realized by optimized transverse magnetic field pulses in magnetic biaxial nanowires.Coupled gyration modes in one-dimensional skyrmion arrays in thin-film nanostrips as new type of information carrier
P2860
Q27307099-986D99BA-530E-47B4-99D1-7FF10946FE7FQ27319965-0FDFD5FD-5AB6-4229-8E7B-77AB3AD0D9D4Q27331830-43BF4034-6BC2-4EC4-A86B-66491EF35CB8Q27335720-EC4B8B2A-FC58-470E-968F-DA6DC5D74042Q30612927-BC091537-10D3-4C6F-A6C0-066EBDF964EFQ30654780-3E2D4A03-898E-4E4D-9352-27D664A7793CQ30665255-7CF4192A-4931-4C1A-9332-EFC75F070BEEQ30838663-7059928E-7AFB-41AD-BCDB-8DA645BACFD4Q30840335-AF161708-0D3E-4AC4-A874-68BF0BBC9877Q30843290-211587DF-ECE9-4AD5-B2EE-FE58F41D36F3Q33761258-4FE30079-F09B-41F1-B6F9-9F91C3D15874Q34072784-356C8969-FCA2-47A9-8C87-2D5870F04291Q34422720-BEACFDC1-F1CE-46C6-B5CA-8B082870E5EDQ34433328-8B67E887-94CC-4384-BCDE-F5AFDB410A12Q34497305-9FB8009A-85F1-48E6-8AB0-CC820397F934Q34528272-0121AF2C-A226-48B1-A23A-CEDA13B87409Q35062339-2D6222A2-540D-4BDA-9D25-16A5BD697362Q35148784-4C0BD9F0-169B-45A2-9DA5-7C09D86F8290Q35224857-7E87CBF5-5F18-4979-AC48-25F04C8531CBQ35663789-E6EB15F6-079C-4E7D-BD0F-843EFBEC0A6BQ35746626-11A74282-0242-444A-972C-5A11AC6087A0Q36145904-D60E2955-899A-4E46-9BF7-5994FA4EDFC5Q36164641-6771E223-1D33-4E6E-8664-40E535711575Q36250411-6FE90843-95DC-45AE-95DA-00BD921E5067Q36251245-C551C064-CFCD-4D12-9393-AB5E496FA5B7Q36548844-9CE2CD00-328A-4EDE-8942-41A1DD31A38AQ36645597-ADF0A337-3D4C-45BD-8B7D-CC5771D30D40Q36690549-48473D9F-4C5F-4724-9FF4-574CA6608141Q36835478-F919BF3F-7F9A-4231-BF51-EF10F7005602Q36840985-5F8CDBB2-0BCC-4381-935B-8527964E59F1Q36975895-F2008BE4-7673-4876-AC90-597FB17A1900Q37010612-54AFA45A-4DCC-410B-8BC0-31C69ED3EFE4Q37081997-443E7240-4D70-4346-9766-CF6238B64021Q37163159-CF235527-360F-4705-AF02-769996053802Q37163214-947E49FD-37E6-4360-A165-925CC03E6FC0Q37260871-32A8C20A-C1F8-4310-8461-564ACAACE32CQ37336048-5329F9B5-3179-41B7-8DE5-35A38B70071DQ37533275-9B737264-B7E2-44F2-BFB1-6B18DC4013AFQ37654754-3CCDB4BA-5C19-4134-8F64-C34E3EC617B7Q37714915-D4BC72BF-B07B-4E90-A09C-8EABF39EC490
P2860
Spontaneous atomic-scale magnetic skyrmion lattice in two dimensions
description
im Juli 2011 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в липні 2011
@uk
name
Spontaneous atomic-scale magnetic skyrmion lattice in two dimensions
@en
Spontaneous atomic-scale magnetic skyrmion lattice in two dimensions
@nl
type
label
Spontaneous atomic-scale magnetic skyrmion lattice in two dimensions
@en
Spontaneous atomic-scale magnetic skyrmion lattice in two dimensions
@nl
prefLabel
Spontaneous atomic-scale magnetic skyrmion lattice in two dimensions
@en
Spontaneous atomic-scale magnetic skyrmion lattice in two dimensions
@nl
P2093
P50
P356
P1433
P1476
Spontaneous atomic-scale magnetic skyrmion lattice in two dimensions
@en
P2093
André Kubetzka
Matthias Menzel
Stefan Heinze
P2888
P304
P356
10.1038/NPHYS2045
P577
2011-07-31T00:00:00Z