Magnetic field effects on the charge-density-wave and superconducting states in pressurized Formula Not ShownKartsovnikM.V.BiberacherW.AndresD.JakobS.KunzingentaconnectPhysica B
A. The initial energy density distribution is computed according to a geometrical Glauber model [51,52], whose details can be found in App. B. 1.1 Initial magnetic field We compute the initial electromagnetic field produced by a point charge moving at constant velocity in a medium with ...
The magnetic hyperfine field is usually antiparallel to the magnetic moment of the iron ions. The electrostatic interaction between the electric quadrupole moment of a nonspherical nucleus and the electric field gradient due to the surrounding charges can result in shifts of the six lines of spectra...
Atoms are charge neutral but to get a sense of the order of magnitude of the artificial magnetic field created by means of the evanescent wave let us assume that atoms possess the elementary charge e. Then, the black curve in Fig. 2 corresponds to magnetic field B/e < 0.3 mT that is ...
(Fn) and causes the magnetic particles to be pressed on the surface of the clot, and the driving of the magnetic field leads to moving of nanoparticles (creating a tangential force (Ft)). (D) (step 4) Ablating the clot due to vertical and horizontal forces and removing the clot from ...
In reality for the QGP with magnetic field one simply cannot distinguish between the synchrotron radiation and the bremsstrahlung due to multiple scattering, and one has to treat the two mechanisms on an even footing. In this case the effect of the magnetic field on the photon emission can ...
Under these conditions: (1) hysteresis loops are elliptical, that is, the system response to the sinusoidal field is sinusoidal; (2) the loss per cycle is proportional to the frequency. When the system is still linear but the dynamic response is controlled by multiple time constants, eqn [2...
The dynamics of a limited ensemble of charged particles in a spatially uniform static magnetic field has been studied analytically and numerically. Calculations have been performed for particles with various masses and charges in a wide range of the parameters of the systems under study. It has be...
Magnetic susceptibility measurements are often the first characterization tool that researchers turn to when beginning to assess the magnetic nature of a newly discovered material. Breakthroughs in instrumentation have made the collection of high quality
A completely new way of using superconducting magnet technology to confine plasma with high energy and extremely high temperatures is proposed. Using the PIC method of microscopic particle simulation, the plasma magnetic nozzle effect and performance of the MPDT under different magnetic-field conditions...