about
Theory of spin torques and giant magnetoresistance in antiferromagnetic metalsVan der Waals engineering of ferromagnetic semiconductor heterostructures for spin and valleytronics.Omnidirectional zero-field ferromagnetic resonance driven by rotatable anisotropy in FeNi/FeMn bilayers without exchange bias.Mapping motion of antiferromagnetic interfacial uncompensated magnetic moment in exchange-biased bilayers.Four-state ferroelectric spin-valve.Cooling field and temperature dependent exchange bias in spin glass/ferromagnet bilayersScaling Laws at the Nano Size: The Effect of Particle Size and Shape on the Magnetism and Relaxivity of Iron Oxide Nanoparticle Contrast Agents.Crystal Structure Manipulation of the Exchange Bias in an Antiferromagnetic FilmMagnetic Properties of Magnetic Nanoparticles for Efficient Hyperthermia.Manipulation of Superparamagnetic Beads on Patterned Exchange-Bias Layer Systems for Biosensing Applications.Exchange Bias Effects in Iron Oxide-Based Nanoparticle Systems.Engineered Heusler Ferrimagnets with a Large Perpendicular Magnetic Anisotropy.Large spontaneous exchange bias in a weak ferromagnet Pb6Ni9(TeO6)5.Interface-Induced Phenomena in Magnetism.Bi-Component Nanostructured Arrays of Co Dots Embedded in Ni80Fe20 Antidot Matrix: Synthesis by Self-Assembling of Polystyrene Nanospheres and Magnetic Properties.The antiferromagnetic structures of IrMn3 and their influence on exchange-bias.Exchange bias of the interface spin system at the Fe/MgO interface.Amorphous tunable-size Co-B magnetic nanoparticles from the cobalt-catalyzed NaBH4 hydrolysis.Size and surface effects on the magnetic properties of NiO nanoparticles.Observation of perpendicular exchange bias in an Ir-doped Fe2O3/Co ultrathin film system.Magnetism of the hypo-oxide state at the diffuse interface between the ferromagnet and antiferromagnet phases.Direct imaging of asymmetric magnetization reversal in exchange-biased Fe/MnPd bilayers by x-ray photoemission electron microscopy.Atomically sharp magnetic domain wall in thin film Fe(110): a first principles noncollinear magnetism study.Angular Dependence of Exchange Bias and Magnetization Reversal Controlled by Electric-Field-Induced Competing Anisotropies.Correlation between exchange bias and pinned interfacial spins.Exchange bias using a spin glass.Difference between blocking and Néel temperatures in the exchange biased Fe3O4/CoO system.Perpendicular exchange bias of Co/Pt multilayers.Spectroscopic identification and direct imaging of interfacial magnetic spins.Oscillatory exchange bias due to an antiferromagnet with incommensurate spin-density waves.Exchange-induced anisotropies at ferromagnetic-antiferromagnetic interfaces above and below the Néel temperature.Enhanced asymmetric magnetization reversal in nanoscale Co/CoO arrays: competition between exchange bias and magnetostatic coupling.Direct imaging and determination of the uncompensated spin density in exchange-biased CoO/(CoPt) multilayers.Symmetry driven irreversibilities at ferromagnetic-antiferromagnetic interfaces.Tailoring size effects on the exchange bias in ferromagnetic-antiferromagnetic <100 nm nanostructures.Magnetoelectric switching of exchange bias.Depth profile of uncompensated spins in an exchange bias system.Exchange bias training effect in coupled all ferromagnetic bilayer structures.Direct observation of exchange bias related uncompensated spins at the CoO/Cu interface.Training effect in an exchange bias system: the role of interfacial domain walls.
P2860
Q27336311-6757B68E-E76E-498E-A8BC-73338663CB76Q30854096-34D41C22-60E5-402E-849B-E9A812F4E45BQ33683975-9C76C110-7CE5-4472-8E52-E819B4C960B1Q35182952-7E40FEDE-7361-4EBD-A5CD-5A93918CE4A1Q35591108-E6A1F68A-6A3E-4F50-86AA-8BF6A859B4CEQ36035240-395FA4F0-1E58-4F82-AF14-F00E8BF1C59DQ36963746-A98746CE-C44F-4DBF-96D8-6348E01C90A4Q37027884-E55B3470-EF1A-4E7F-B6EC-54B9D3BD2647Q37646281-492E7702-095B-4EA6-AFB6-BF8FC80689D8Q38637322-58672117-8335-4C84-BBC9-BBA6027D0ACAQ39196552-7EB65A0C-987F-49B5-9187-B8E37ED71F92Q41031634-8FEA4EB8-74E1-4C15-AFBC-720B10425DF1Q41419559-AA9504CF-902C-46CE-BB6B-27294211620EQ41633849-B4027E45-F1BF-46E1-B939-0D96258FDADEQ41667147-8468D8AD-C6E6-428A-9B4B-E3897E174774Q41904029-CFF6744C-1633-4E2B-99E6-7DFBDC797C82Q44985744-8CA2DDBB-8458-48A7-A824-C627F1BC33CFQ47351456-D5F2C584-B6D7-4547-834F-8D58CD4B4BCEQ47380766-A47B9F51-A0FC-401B-9F6C-14134A452A6EQ48161022-F0D5305B-95BB-466C-8A4B-A19F8370ACAEQ50158807-EE31B27D-14F5-4AB5-9034-F7BB9DF1D66CQ51525131-9DCE7B13-E43B-4D38-91E8-CD204FE3E4DFQ51628846-31D2133E-F4FA-4E75-928C-8B91BD8A1BF7Q51657528-46148564-68EB-446F-BCD7-324CFAEFECFCQ51839106-C77E17AD-B011-448A-94E6-4AD24A33DDEAQ52854751-968B4B4A-B35C-4AF8-A4B0-21169B2E96D4Q52925666-FF6871C0-7A91-44EE-B0F8-5C733590B274Q52933739-E511EBD4-58A3-4D05-B03A-389BB745E5DFQ52936082-0715D817-81AE-43B6-9751-2B2ADF2ECAAAQ52951022-220C3224-4F89-442B-BE5B-8664B705BEF1Q52952995-083E9EF9-4D87-4176-94A1-2DF452E8C319Q52956774-71498634-298F-46FF-9EE4-9C995E2225A3Q52958958-299EFE1A-C362-43B2-A5E2-5410899ACDFCQ52967808-FDAF354B-C133-453B-BE80-C39D9054B51DQ52977782-EB02DDF0-F714-4CCE-8AAB-F11F1C32E9FBQ52977786-5D1F5944-04B0-487A-98E8-4C97C2903D3FQ52980837-4A3CAD1C-1D59-4DAA-AF4F-097949F00525Q53001769-0C5DE5DA-8E41-44F8-8E1A-571482CF16C5Q53001774-90715E33-363C-4306-8DD7-CBF502888CE3Q53001778-446D2892-D41E-4218-963E-04313B43BC9E
P2860
description
article
@en
im Oktober 1999 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в жовтні 1999
@uk
ലേഖനം
@ml
name
Exchange anisotropy — a review
@en
Exchange anisotropy — a review
@nl
type
label
Exchange anisotropy — a review
@en
Exchange anisotropy — a review
@nl
prefLabel
Exchange anisotropy — a review
@en
Exchange anisotropy — a review
@nl
P1476
Exchange anisotropy — a review
@en
P2093
A.E. Berkowitz
Kentaro Takano
P304
P356
10.1016/S0304-8853(99)00453-9
P577
1999-10-01T00:00:00Z