Add to ORKGMagnetic logic gates based on magnetostatically coupled ferromagnetic structures show a great promise for future information processing. The absolute size and shape of the elementary structures determine their intrinsic and interaction properties and thus have to be chosen appropriately in order to allow for binary logic operations. Here, we present a systematic study of the switching behavior, stray field, and coupling of Permalloy nanostructures as a function of geometrical parameters using micromagnetic simulations. We show that bow-tie shaped elements are promising for magnetic logic gates. © 2007 American Institute of Physics
The proximity effect in the collective behavior of arrays of magnetic nanostripes is currently a sub...
That the magnetic orientation of ferromagnets can be changed using magnetic fields has been known fo...
That the magnetic orientation of ferromagnets can be changed using magnetic fields has been known fo...
Magnetic logic gates based on magnetostatically coupled ferromagnetic structures show a great promis...
Magnetic nanostructures are promising for nonvolatile data storage applications, as well as for reco...
We studied the evolution of the magnetic state of a majority logic gate consisting of a cluster of f...
Binary is the language used by logic devices. Therefore, when magnetic materials need to be used for...
The following dissertation addresses the study of nano-magnetic devices configured to produce logic ...
The following dissertation addresses the study of nano-magnetic devices configured to produce logic ...
Nanoscale magnetic junctions provide a useful approach to act as building blocks for magnetoresistiv...
Among all “beyond CMOS” solutions currently under investigation, nanomagnetic logic (NML...
The proximity effect in the collective behavior of arrays of magnetic nanostripes is currently a sub...
Nanomagnetic logic (NML) employs dipole-coupled nanomagnets, in order to implement nonvolatile logi...
We study the evolution of the magnetic field-induced switching between the stable domain configurati...
We study the evolution of the magnetic field-induced switching between the stable domain configurati...
The proximity effect in the collective behavior of arrays of magnetic nanostripes is currently a sub...
That the magnetic orientation of ferromagnets can be changed using magnetic fields has been known fo...
That the magnetic orientation of ferromagnets can be changed using magnetic fields has been known fo...
Magnetic logic gates based on magnetostatically coupled ferromagnetic structures show a great promis...
Magnetic nanostructures are promising for nonvolatile data storage applications, as well as for reco...
We studied the evolution of the magnetic state of a majority logic gate consisting of a cluster of f...
Binary is the language used by logic devices. Therefore, when magnetic materials need to be used for...
The following dissertation addresses the study of nano-magnetic devices configured to produce logic ...
The following dissertation addresses the study of nano-magnetic devices configured to produce logic ...
Nanoscale magnetic junctions provide a useful approach to act as building blocks for magnetoresistiv...
Among all “beyond CMOS” solutions currently under investigation, nanomagnetic logic (NML...
The proximity effect in the collective behavior of arrays of magnetic nanostripes is currently a sub...
Nanomagnetic logic (NML) employs dipole-coupled nanomagnets, in order to implement nonvolatile logi...
We study the evolution of the magnetic field-induced switching between the stable domain configurati...
We study the evolution of the magnetic field-induced switching between the stable domain configurati...
The proximity effect in the collective behavior of arrays of magnetic nanostripes is currently a sub...
That the magnetic orientation of ferromagnets can be changed using magnetic fields has been known fo...
That the magnetic orientation of ferromagnets can be changed using magnetic fields has been known fo...