He Y, Fecher GH, Fu C, Pan Y, Manna K, Kroder J, Jha A, Wang X, Hu Z, Agrestini S, Herrero-Martin J, Valvidares M, Skourski Y, Schnelle W, Stamenov P, Borrmann H, Tjeng LH, Schaefer R, Parkin SSP, Coey JMD, Felser C (2020)
Publication Type: Journal article
Publication year: 2020
Book Volume: 32
Article Number: 2004331
Journal Issue: 45
The development of high-density magnetic recording media is limited by superparamagnetism in very small ferromagnetic crystals. Hard magnetic materials with strong perpendicular anisotropy offer stability and high recording density. To overcome the difficulty of writing media with a large coercivity, heat-assisted magnetic recording was developed, rapidly heating the media to the Curie temperature T
APA:
He, Y., Fecher, G.H., Fu, C., Pan, Y., Manna, K., Kroder, J.,... Felser, C. (2020). A New Highly Anisotropic Rh-Based Heusler Compound for Magnetic Recording. Advanced Materials, 32(45). https://doi.org/10.1002/adma.202004331
MLA:
He, Yangkun, et al. "A New Highly Anisotropic Rh-Based Heusler Compound for Magnetic Recording." Advanced Materials 32.45 (2020).
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