Evolution of First-Order Reversal Curves During Self-Assembly of the Co40.2Pt59.8 Nano-Chessboard Structure PROJECT TITLE :Evolution of First-Order Reversal Curves During Self-Assembly of the Co40.2Pt59.8 Nano-Chessboard StructureABSTRACT:The magnetic properties of bulk Co40.2Pt59.eight alloys were investigated throughout eutectoid decomposition to create the nano-chessboard structure. The nano-chessboard consists of nanorods of the magnetically exhausting L10 section coherently embedded in a very magnetically soft L12 matrix, with a periodicity on the order of 2540nm. This 2-plus-one dimensional structure provides an attention-grabbing avenue for investigations into exchange coupling and its result on permanent magnetic properties in the bulk material. Initial-order reversal curve measurements, in addition to transmission electron microscopy, show the evolution of the onerous part, characterised by intensive native interactions and the event of robust however incomplete exchange coupling between the hard and soft phases in the nano-chessboard. The soft phase shows evidence of both magnetizing and demagnetizing interactions. Did you like this research project? To get this research project Guidelines, Training and Code... Click Here facebook twitter google+ linkedin stumble pinterest Perpendicular Exchange Bias of [Pt/Co]5/IrMn Multilayers on Self-Organized Hexagonally Patterned Nanodots Impact of Asymmetric Configurations on the Heterogate Germanium Electron–Hole Bilayer Tunnel FET Including Quantum Confinement