The origins of electrical resistivity in magnetic reconnection:
... and ions is 64 per cell for each species with the particle splitting technique to reduce discreteness noise. It is remarked that particle simulation has a reasonable resolution even with fewer grid points than MHD (fluid) simulations because the plasma current and charge are carried by Lagrangean pa ...
... and ions is 64 per cell for each species with the particle splitting technique to reduce discreteness noise. It is remarked that particle simulation has a reasonable resolution even with fewer grid points than MHD (fluid) simulations because the plasma current and charge are carried by Lagrangean pa ...
Spins and spin-orbit coupling in semiconductors, metals, and
... electron spins include possibilities of practical applications. Systems based on ferromagnets are very important for data storage and retrieval-magnetic memory devices including hard discs and magnetic random access memories GMR read heads. Reversal of magnetic domains is currently accomplished by a ...
... electron spins include possibilities of practical applications. Systems based on ferromagnets are very important for data storage and retrieval-magnetic memory devices including hard discs and magnetic random access memories GMR read heads. Reversal of magnetic domains is currently accomplished by a ...
a. notes E283C1
... ferromagnetic material, however, this approach has inaccuracy embedded into it due to assumptions made in creating this approach (within 5% of the real answer). Possible reason of inaccuracy is due to: a) The magnetic circuit assumes that all flux are confined within the core, but in reality a small ...
... ferromagnetic material, however, this approach has inaccuracy embedded into it due to assumptions made in creating this approach (within 5% of the real answer). Possible reason of inaccuracy is due to: a) The magnetic circuit assumes that all flux are confined within the core, but in reality a small ...
Powerpoint
... 21.5 Electric Generators A generator is the opposite of a motor – it transforms mechanical energy into electrical energy. This is an ac generator: The axle is rotated by an external force such as falling water or steam. The brushes are in constant electrical contact with the slip rings. ...
... 21.5 Electric Generators A generator is the opposite of a motor – it transforms mechanical energy into electrical energy. This is an ac generator: The axle is rotated by an external force such as falling water or steam. The brushes are in constant electrical contact with the slip rings. ...
TOPIC 19 Electric Field
... 10 In discussing electric fields, the terms 'electric field strength', 'electric potential' and 'potential gradient' are used. 19 Electric Field ...
... 10 In discussing electric fields, the terms 'electric field strength', 'electric potential' and 'potential gradient' are used. 19 Electric Field ...
15ElectricForcesFiel..
... net amount of electric charge produced in any process is zero. Another way of saying this is that in any process electric charge CANNOT be created or destroyed, however, it can be transferred from one object to another. ...
... net amount of electric charge produced in any process is zero. Another way of saying this is that in any process electric charge CANNOT be created or destroyed, however, it can be transferred from one object to another. ...
The origin of the phase in the interference of Bose
... equal to the square root of the condensate density and a phase. The state in which 具ˆ 共r兲典 is nonzero cannot have a fixed particle number. With one of these wave functions for each condensate, it is straightforward to discuss interference of the two, because each one has its own phase, and an inter ...
... equal to the square root of the condensate density and a phase. The state in which 具ˆ 共r兲典 is nonzero cannot have a fixed particle number. With one of these wave functions for each condensate, it is straightforward to discuss interference of the two, because each one has its own phase, and an inter ...
SOLID-STATE PHYSICS II 2008 O. Entin-Wohlman
... is formed a ‘layer’ around x = 0, which is called the ‘depletion layer’, where the electron and hole concentration depends on x. In order to determine the properties of the depletion layer, we can view the abrupt change in the impurity concentration, as described by Eq. (2.1), as causing some electr ...
... is formed a ‘layer’ around x = 0, which is called the ‘depletion layer’, where the electron and hole concentration depends on x. In order to determine the properties of the depletion layer, we can view the abrupt change in the impurity concentration, as described by Eq. (2.1), as causing some electr ...
Multiphoton adiabatic rapid passage: classical transition induced by separatrix crossing
... In this paper, we present the results of fully quantum calculations for this system. We numerically solve the time-dependent Schrödinger equation for a one-dimensional model and for a full three-dimensional calculation for Li using a model potential that gives the correct quantum defects of the Ryd ...
... In this paper, we present the results of fully quantum calculations for this system. We numerically solve the time-dependent Schrödinger equation for a one-dimensional model and for a full three-dimensional calculation for Li using a model potential that gives the correct quantum defects of the Ryd ...
