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Spaldin was the 2010 winner of the American Physical Society's James C. McGroddy Prize for New Materials, [32] the winner of the Rössler Prize of the ETH Zurich Foundation in 2012, [33] the 2015 winner of the Körber European Science Prize for "laying the theoretical foundation for the new family of multiferroic materials" [16] [12] [14] and one of the laureates of the 2017 L'Oréal-UNESCO ...
To place multiferroic materials in their appropriate historical context, one also needs to consider magnetoelectric materials, in which an electric field modifies the magnetic properties and vice versa. While magnetoelectric materials are not necessarily multiferroic, all ferromagnetic ferroelectric multiferroics are linear magnetoelectrics ...
2023: Claudia Felser and Andrei Bernevig for seminal contributions to the classification, prediction, and discovery of novel topological quantum materials. 2022: Agnès Barthélémy, Manuel Bibes, Ramamoorthy Ramesh and Nicola Spaldin for seminal contributions to the physics and applications of multiferroic and magnetoelectric materials.
Created Date: 8/30/2012 4:52:52 PM
Below the magnetization compensation point, ferrimagnetic material is magnetic. At the compensation point, the magnetic components cancel each other, and the total magnetic moment is zero. Above the Curie temperature, the material loses magnetism. Ferrimagnetism has the same physical origins as ferromagnetism and antiferromagnetism.
O'handley RC, Modern Magnetic Materials: Principles and Applications, Wiley, 2000. [461] [482] Spaldin NA, Magnetic Materials: Fundamentals and Applications, 2nd ed, Cambridge University, 2010. [461] [483]
2020 - Professor Nicola Spaldin "New Materials for a New Age" 2022 - Professor Professor Clare Grey FRS "New ways of looking at batteries - function, failure and fast charging" 2023 - Professor Professor Samuel Stupp "Frontiers in Supramolecular Design of Materials"
The maximum magnetic field B is about 0.35 tesla and the magnetic field strength H is about 30–160 kiloampere turns per meter (400–2000 oersteds). [33] The density of ferrite magnets is about 5 g/cm 3. The most common hard ferrites are: Strontium ferrite Sr Fe 12 O 19 (Sr O · 6 Fe 2 O