Determination of magnetic anisotropies, interlayer coupling, and magnetization relaxation in FeCoB/Cr/FeCoB
... through recent years because of their potential applications in spintronics, magnetic sensors, microwave structures, and high-density magnetic recording devices.1–6 Among these, layered film structures such as exchange biased bilayers have been studied extensively. The strong coupling between the fe ...
... through recent years because of their potential applications in spintronics, magnetic sensors, microwave structures, and high-density magnetic recording devices.1–6 Among these, layered film structures such as exchange biased bilayers have been studied extensively. The strong coupling between the fe ...
Quantized conductance in magnetic field: spin resolved plateaus
... QPCs is also recorded with an additional voltage amplifier. These four terminal measurement method allows precise measurement of the resistance of the QPC, without parazitic resistances of the cables, ohmics or circuitry. For DC bias measurements an external DC voltage was supplied to our voltage con ...
... QPCs is also recorded with an additional voltage amplifier. These four terminal measurement method allows precise measurement of the resistance of the QPC, without parazitic resistances of the cables, ohmics or circuitry. For DC bias measurements an external DC voltage was supplied to our voltage con ...
Analysis of Contact Force in Eddy-current System Using the
... calculate the magnetic force. These methods are effective only when calculating the total magnetic force of an isolated object that is surrounded by air. Since the integration path for calculating the force should be taken in the air, it is difficult to compute the force between contacting objects u ...
... calculate the magnetic force. These methods are effective only when calculating the total magnetic force of an isolated object that is surrounded by air. Since the integration path for calculating the force should be taken in the air, it is difficult to compute the force between contacting objects u ...
Circular Polarization and Nonreciprocal Propagation in Magnetic Media
... electric-dipole moment. In the permittivity case, the electric-dipole aspect of the orbital momentum produces the interaction, but the essential alignment of the individual dipoles for a collective result is accomplished by magnetic alignment. In the pure magnetic-dipole case, the optimum interactio ...
... electric-dipole moment. In the permittivity case, the electric-dipole aspect of the orbital momentum produces the interaction, but the essential alignment of the individual dipoles for a collective result is accomplished by magnetic alignment. In the pure magnetic-dipole case, the optimum interactio ...
Static Electricity - Red Hook Central Schools
... Fields produced by more that a single charge will have spots where the forces on a charge in the field will be balanced. F net = 0. ...
... Fields produced by more that a single charge will have spots where the forces on a charge in the field will be balanced. F net = 0. ...
15ElectricForcesFiel..
... 1. Complete a data table listing the charge on each object and the distance between the objects. If more than two charged objects are given, draw a diagram showing the position of each object. 2. If the objects touch then charge transfer occurs and the law of conservation of charge must be applied t ...
... 1. Complete a data table listing the charge on each object and the distance between the objects. If more than two charged objects are given, draw a diagram showing the position of each object. 2. If the objects touch then charge transfer occurs and the law of conservation of charge must be applied t ...
File
... Magnets • Magnets attract iron-containing objects. • Magnets have two distinct poles called the north pole and the south pole. These names are derived from a magnet’s behavior on Earth. • Like poles of magnets repel each other; unlike poles attract each other. ...
... Magnets • Magnets attract iron-containing objects. • Magnets have two distinct poles called the north pole and the south pole. These names are derived from a magnet’s behavior on Earth. • Like poles of magnets repel each other; unlike poles attract each other. ...
posted
... that produces the field. In part (a), for (i) the field magnitudes were added because the fields were in the same direction and in (ii) and (iii) the field magnitudes were subtracted because the two fields were in opposite directions. In part (b) we could have used Coulomb’s law to find the forces o ...
... that produces the field. In part (a), for (i) the field magnitudes were added because the fields were in the same direction and in (ii) and (iii) the field magnitudes were subtracted because the two fields were in opposite directions. In part (b) we could have used Coulomb’s law to find the forces o ...
Magnetic monopole
A magnetic monopole is a hypothetical elementary particle in particle physics that is an isolated magnet with only one magnetic pole (a north pole without a south pole or vice versa). In more technical terms, a magnetic monopole would have a net ""magnetic charge"". Modern interest in the concept stems from particle theories, notably the grand unified and superstring theories, which predict their existence.Magnetism in bar magnets and electromagnets does not arise from magnetic monopoles. There is no conclusive experimental evidence that magnetic monopoles exist at all in our universe.Some condensed matter systems contain effective (non-isolated) magnetic monopole quasi-particles, or contain phenomena that are mathematically analogous to magnetic monopoles.