In (2) the calculation of the currents induced in an infinite plane sheet with a circular hole by a varying magnetic field is reduced to the solution of dual integral equations. An elementary solution of these equations is given and the original solution of the problem is corrected. DOI: 10....
Calculate the magnitude and the direction of the magnetic field for an arbitrarypoint above and below the A conducting sheet consist of an infinite number of adjacent wires of infinite length (negligible radius), each carrying current out ...
Magnetic fieldStretching sheetNachtsheim–Swigert shooting iteration techniqueWe investigate the steady two-dimensional flow of an incompressible water based nanofluid over a linearly semi-infinite stretching sheet in the presence of magnetic field numerically. The basic boundary layer equations for momentum...
aElectronic band dispersion in non-magnetic LaNiO2. The size and color of the dots are proportional to the fractional weight of the various indicated site-resolved orbital projections.bPrimitive crystal structure of non-magnetic LaNiO2.cCalculated the Fermi surface of LaNiO2and its cuts in the (...
In this work, the electronic and magnetic properties of NdNiO2are systemically studied by first-principles calculations combined with classical Monte Carlo (MC) calculations. For the paramagnetic (PM) phase, its Fermi surface includes one large sheet and two electron pockets at Γ and A point, ...
Figure3shows the evolution of the momentum dependence of\({{{\Lambda }}}_{F}^{0}\)and the corresponding density of instabilities for LaNiO2under various hole dopings. As hole carriers are added, the Ni-\(3{d}_{{x}^{2}-{y}^{2}}\)Fermi surface sheet expands in volume, gradually...
The generation of a magnetic field by statistically homogeneous, stationary velocity turbulence is considered. The generation of rms magnetic fluctuation is explicitly demonstrated in the limit of short turbulence correlation time. It is shown that the fluctuation associated with a growing or stationary ...
The computations are based upon an equation derived by Wesley for the magnetic field produced in these conditions, combined with the relation between the electrical current density in a laminar sheet and the magnetic field produced by this current at the surface of the sheet. The results of the...
Neutral atoms and charged ions of heavy metals are placed at the (a) on-top (T), (b) bridge (B), and (c) hollow (H) sites on the hexagonal cell, as well as, on a defect (D) site (d) of graphene sheet (substitutional defect). Full size image Binding site and binding ...
The velocity of fluid topples the sheet velocity in the case of amplification n, which magnifies the skin friction phenomenon. Figure 14. Revealing the consequences of 𝑊𝑒We with the related skin friction coefficient. Figure 15. Revealing the consequences of n with the related skin friction...