Add to ORKGMagnetoresistance and magnetotransport in silicon and silicon-based nanostructures has great impact on the development of silicon spintronics and quantum information processing. This is due to the importance of silicon technology and by the non-triviality of spin-dependent processes in silicon doped with various impurities. Within this framework, the investigations of the non-linear electrical effects are also relevant. Their implementation along with the spin dependent processes can pave the way to a novel energy efficient information processing devices based on silicon technology
Based on the developed low-temperature step-by-step diffusion of impurity manganese atoms, magnetic ...
With semiconductor device scaling apparently approaching its fundamental limits, new engineering sol...
The integration of spintronic elements with silicon technologies in order to produce active spintron...
Information, be it classical or quantum mechanical, requires representation in physical reality for ...
In silicon spintronics, the unique qualities of ferromagnetic materials are combined with those of s...
We report measurements of spin-dependent scattering of conduction electrons by neutral donors in acc...
The control and manipulation of the electron spin in semiconductors is central to spintronics1,2, wh...
Investigation of electrical resistivity and magnetoresistance in single crystalline n-type silicon h...
In last decade the process of spin relaxation of conduction electrons in semiconductor structures ha...
The electrical injection and detection of spin-polarized carriers in semiconductors at room temperat...
Abstract—Electron spin attracts much attention as an alternative degree of freedom for low-power rep...
The paper reports that silicon with nanoclusters of manganese atoms has unique electrical, photoelec...
Silicon-based quantum information processing devices show great promise, being one of the most advan...
Practical application of spin-electronics and nanotechnology depends largely on compatibility with c...
Until recently, mainstream electronics was exclusively based on charge proper- ties. Apart from char...
Based on the developed low-temperature step-by-step diffusion of impurity manganese atoms, magnetic ...
With semiconductor device scaling apparently approaching its fundamental limits, new engineering sol...
The integration of spintronic elements with silicon technologies in order to produce active spintron...
Information, be it classical or quantum mechanical, requires representation in physical reality for ...
In silicon spintronics, the unique qualities of ferromagnetic materials are combined with those of s...
We report measurements of spin-dependent scattering of conduction electrons by neutral donors in acc...
The control and manipulation of the electron spin in semiconductors is central to spintronics1,2, wh...
Investigation of electrical resistivity and magnetoresistance in single crystalline n-type silicon h...
In last decade the process of spin relaxation of conduction electrons in semiconductor structures ha...
The electrical injection and detection of spin-polarized carriers in semiconductors at room temperat...
Abstract—Electron spin attracts much attention as an alternative degree of freedom for low-power rep...
The paper reports that silicon with nanoclusters of manganese atoms has unique electrical, photoelec...
Silicon-based quantum information processing devices show great promise, being one of the most advan...
Practical application of spin-electronics and nanotechnology depends largely on compatibility with c...
Until recently, mainstream electronics was exclusively based on charge proper- ties. Apart from char...
Based on the developed low-temperature step-by-step diffusion of impurity manganese atoms, magnetic ...
With semiconductor device scaling apparently approaching its fundamental limits, new engineering sol...
The integration of spintronic elements with silicon technologies in order to produce active spintron...