Unusual ordered phases of highly frustrated magnets: a review
... possibility. Interestingly, the system studied there was antiferromagnetic XY model of spins on triangular lattice. Its magnetic field h - temperature T phase diagram is composed of the same phases, Y, UUD and V, that show up in the phase diagram of the Heisenberg model in the magnetic field, Figure ...
... possibility. Interestingly, the system studied there was antiferromagnetic XY model of spins on triangular lattice. Its magnetic field h - temperature T phase diagram is composed of the same phases, Y, UUD and V, that show up in the phase diagram of the Heisenberg model in the magnetic field, Figure ...
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Department of Physics and Astronomy Magnetic and Magneto
... 3.26 eV is actually a limitation in this study. The LSMO films with 30% Sr, grown on both SrTiO3 and sapphire substrates, exhibit a high Curie temperature (Tc) of 340 K. The magnetic circular dichroism (MCD) intensity follows the magnetisation for LSMO on sapphire; however, the measurements on SrTiO ...
... 3.26 eV is actually a limitation in this study. The LSMO films with 30% Sr, grown on both SrTiO3 and sapphire substrates, exhibit a high Curie temperature (Tc) of 340 K. The magnetic circular dichroism (MCD) intensity follows the magnetisation for LSMO on sapphire; however, the measurements on SrTiO ...
On Exotic Orders in Stongly Correlated Systems
... deeply, and to recognize honestly the boundaries of my own understanding. But above all, he has been a constant reminder of what drew me to academic life in the first place: a genuine intellectual, who finds fascinating questions in a multitude of areas of life, and takes sincere pleasure in seeking ...
... deeply, and to recognize honestly the boundaries of my own understanding. But above all, he has been a constant reminder of what drew me to academic life in the first place: a genuine intellectual, who finds fascinating questions in a multitude of areas of life, and takes sincere pleasure in seeking ...
Eindhoven University of Technology Department of Applied Physics
... of transistors on a microchip will approximately double every two years, to be continued. Except for the spin of a single atom, collective motion of spins can also be utilized to make a novel memory. In a so-called racetrack memory [7], the magnetic domain walls, which store information, can be move ...
... of transistors on a microchip will approximately double every two years, to be continued. Except for the spin of a single atom, collective motion of spins can also be utilized to make a novel memory. In a so-called racetrack memory [7], the magnetic domain walls, which store information, can be move ...
The AdS 3/CFT2 correspondence in black hole physics
... called the decoupling limit, which zooms in the near horizon geometry. This leads to a factorised geometry with one factor always being an AdS space and the rest are compact manifolds. As briefly reviewed in subsection 2.2, the supergravity theory that results on this geometry is conjectured to be d ...
... called the decoupling limit, which zooms in the near horizon geometry. This leads to a factorised geometry with one factor always being an AdS space and the rest are compact manifolds. As briefly reviewed in subsection 2.2, the supergravity theory that results on this geometry is conjectured to be d ...
Unusual ordered phases of highly frustrated magnets: a review
... possibility. Interestingly, the system studied there was antiferromagnetic XY model of spins on triangular lattice. Its magnetic field h - temperature T phase diagram is composed of the same phases, Y, UUD and V, that show up in the phase diagram of the Heisenberg model in the magnetic field, Figure ...
... possibility. Interestingly, the system studied there was antiferromagnetic XY model of spins on triangular lattice. Its magnetic field h - temperature T phase diagram is composed of the same phases, Y, UUD and V, that show up in the phase diagram of the Heisenberg model in the magnetic field, Figure ...
Properties of Graphene in an External Magnetic
... turns out, that a magnetic field applied to graphene gives rise to discrete Landau levels which are essentially important in the explanation of a anomalous quantum Hall effect in graphene. ...
... turns out, that a magnetic field applied to graphene gives rise to discrete Landau levels which are essentially important in the explanation of a anomalous quantum Hall effect in graphene. ...
Study of Flux Transfer Events Observed at the Earth`s
... lines. Although other phenomena, e.g., particle acceleration and heating, can happen concurrently associated with reconnection, it is the most important process because it allows the fast magnetic energy release in large scales. Flux transfer events (FTEs) are considered as a result of transient mag ...
... lines. Although other phenomena, e.g., particle acceleration and heating, can happen concurrently associated with reconnection, it is the most important process because it allows the fast magnetic energy release in large scales. Flux transfer events (FTEs) are considered as a result of transient mag ...
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.