Relations between Different Modes of Acquisition of the Remanent Magnetization of Ferromagnetic Particles
about
Combined effects of magnetic interaction and domain wall pinning on the coercivity in a bulk Nd₆₀Fe₃₀Al₁₀ ferromagnet.Exchange-coupled nanocomposites: chemical synthesis, characterization and applications.In situ non-aqueous nucleation and growth of next generation rare-earth-free permanent magnets.Bulk magnetic domain stability controls paleointensity fidelity.Thermal relaxation and collective dynamics of interacting aerosol-generated hexagonal NiFe2O4 nanoparticles.Designing new ferrite/manganite nanocomposites.Studying nanoparticles' 3D shape by aspect maps: Determination of the morphology of bacterial magnetic nanoparticles.Watermelon-like iron nanoparticles: Cr doping effect on magnetism and magnetization interaction reversal.The magnetic properties of platinum cobalt near the equiatomic composition part I. the experimental dataMagnetic properties of biogenic soil greigite (Fe3S4)Investigation on intergrain exchange coupling of nanocrystalline permanent magnets by Henkel plotMagnetic field assisted polyol synthesis of cobalt carbide and cobalt microwiresMagnetic properties of Co2C and Co3C nanoparticles and their assembliesEffect of additives on the structure and magnetic properties of 1:7 type Sm2Fe15Ga2C3 permanent magnetsFlux vortices and transport currents in type II superconductorsCorrelation between magnetic interactions and giant magnetoresistance in melt-spun Co10Cu90 granular alloysUnusual magnetic damping effect in a silver–cobalt ferrite hetero nano-systemFlux vortices and transport currents in type II superconductorsInteraction effects in disordered multilayersMagnetostatic Interaction in Fe-Co NanowiresImprovement of the Magnetic Properties of Nanocrystalline Nd12.3(FeZrNbCu)81.7B6.0Alloys with Dy Substitutions
P2860
Q34411796-85FEC588-1806-46F2-BCAF-A203EC90295BQ38240599-0E62DCC7-E0E3-4CDC-97FD-2D8536A41EA5Q46635009-740C4FBB-8D05-4F47-8D87-B93D8EA06DD5Q47174607-9D3AD4E9-C7CE-4B47-8A8E-DC517E5947EDQ50874014-9E30AAC7-5840-497B-893F-026DC482680AQ51595020-879AE806-4D87-4A9F-8296-A0B563AE06A5Q53063727-B1D9973E-2E01-4239-BEF1-C8151C7C3069Q53122721-8ED6832D-5361-4E83-A995-E2E6DADD7A43Q56020663-F0EA045C-088F-45AF-92AF-A87951E99D06Q56835368-BB84269A-46B8-44A2-AD28-47DD87E06E0CQ56851691-D9F7EC57-294C-45B6-9BB0-F63B4E053356Q57583230-AD5043E1-0FE0-40AC-88B3-2D83499EBDE9Q57962409-B520E5A1-86D3-40A1-B3A1-7D3F461763F8Q58038614-4820BE88-4D6C-4D94-9B92-BDAE07100C60Q58093849-71ECCE80-8669-4ECF-8EC1-098CE909D815Q58163182-6A106B47-67B6-4381-A1CB-731EC18F2474Q58233384-E7C4B65A-7DFA-4D28-B231-C5D9FD5D7B97Q58302878-2214914A-B77F-4FB5-B61F-334D154E000EQ58417038-4860F67F-1C1F-4C7A-80F2-F0A351E7A63BQ58909335-660438C2-8AD9-47C1-8F03-CA97A4F05822Q59113350-38BAA69B-8121-4A9E-B629-B7A9FA5F73E5
P2860
Relations between Different Modes of Acquisition of the Remanent Magnetization of Ferromagnetic Particles
description
im März 1958 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в березні 1958
@uk
name
Relations between Different Mo ...... ion of Ferromagnetic Particles
@en
Relations between Different Mo ...... ion of Ferromagnetic Particles
@nl
type
label
Relations between Different Mo ...... ion of Ferromagnetic Particles
@en
Relations between Different Mo ...... ion of Ferromagnetic Particles
@nl
prefLabel
Relations between Different Mo ...... ion of Ferromagnetic Particles
@en
Relations between Different Mo ...... ion of Ferromagnetic Particles
@nl
P356
P1476
Relations between Different Mo ...... ion of Ferromagnetic Particles
@en
P2093
E. P. Wohlfarth
P304
P356
10.1063/1.1723232
P577
1958-03-01T00:00:00Z