Solar Variability and its Effects on Climate. Geophysical Monograph 141Geophysical MonographLow, B.C.: 2004, In: Pap, J.M., Fox, P. (eds.) Solar Variability and Its Effects on Climate , AGU Geophys. Monogr. 141 , 51.Low, B.C. and M. Zhang, Global Magnetic-Field Reversal in the ...
Recent studies have found that the Earth's magnetic field has weakened about 5% per decade. At its current rate, the next reversal could happen within the next century. Some people worry about the effects of a magnetic field reversal. They think there is a possibility that it could cause ma...
1.1Magnetic field as a coherent probe of strongly interacting matter Themagnetic fieldis a crucial ingredient of the CME as it breaks therotational invarianceand creates a preferred orientation for the spins of the fermions. The use of magnetic field in elucidating topological effects incondensed matt...
In fact, in our case the time-reversal symmetry is broken by the magnetic field effects. Introduction In nature many peculiar features of certain phenomena are observable only under special conditions. For instance, recently by breaking either the time-reversal symmetry or the inversion symmetry ...
Accordingly, the voltage control of magnetic anisotropy can be used to realize physical reservoir computing by spintronics devices without driving current or magnetic field. Here, we perform numerical simulation of the Landau-Lifshitz-Gilbert (LLG) equation and find that the computational capabilities of...
Coronal holes are solar regions with low soft X-ray or low extreme ultraviolet intensities. The magnetic fields from coronal holes extend far away from the Sun, and thus they are identified as regions with open magnetic field lines. Coronal holes are con
A reversal could cause problems for both man and animals. Astronauts and satellites would have difficulties. Birds, fish and animals that rely on the magnetic field for navigation would find migration confusing. But experts said the effects would not be a big disaster, despite claims of doom ...
Büchner, J., Zelenyi, L.: Regular and chaotic particle motion in magnetotail field reversal. J. Geophys. Res. 94(A9), 11821–11842 (1989) [Sect. 11.2] Google Scholar Bykov, A.M., Chevalier, R.A., Ellison, D.C., et al.: Non-thermal emission from a supernova remnant in a...
field and exchange-field splitting. The system is further studied by micromagnetic simulation to address the behavior of reversal magnetization and the magnetic effects under strain. The electronic and magnetic properties are also discussed, which will be significant for future spintronic applications. ...
Because fixed magnetic field inhomogeneities are not corrected by gradient echo sequences, such sequences are more prone to susceptibility effects, which create local magnetic field inhomogeneities. These may be intended, as with use of gradient echo sequences to improve detectability of subtle foci ...