Transportation of Static Magnetic Fields by a Practically Realizable Magnetic Hose PROJECT TITLE :Transportation of Static Magnetic Fields by a Practically Realizable Magnetic HoseABSTRACT:A practically realizable magnetic hose, created by wrapping a ferromagnetic cylinder with an alternating superconductor-ferromagnet (SC-FM) heterostructure, was developed and its capability to transfer the static magnetic fields, e.g., generated by a Nd-Fe-B magnet, is examined. A various dependence of the transfer potency on the diameter of the inner cylinder was found in the magnetic hose demonstrators and therefore the underlying cause was clarified by finite-part simulations. Transfer potency of over fiftypercent in terms of a moderate field was achieved in the best demonstrator of this study, even with a thin sheet having only moderate magnetism to embody the FM in the heterostructure. This work links a theoretically derived model with physical reality and additionally conceives solutions to make a magnetic circuit with minimum leakage or to make a magnetically shielded house, both of which are promising to be used in most electromagnetic devices. Did you like this research project? To get this research project Guidelines, Training and Code... Click Here facebook twitter google+ linkedin stumble pinterest Simultaneous Detection of Giant Magnetoimpedance and Fast Domain Wall Propagation in Co-Based Glass-Coated Microwires Calculation of Magnetization and Permeability Tensor of a Partially Magnetized Cylindrical Ferrite Resonator
