Add to ORKGA current problem in semiconductor spin-based electronics is the difficulty of experimentally expressing the effect of spin-polarized current in electrical circuit measurements. We present a theoretical solution with the principle of transference of the spin-diffusion effects in the semiconductor channel of a system with three magnetic terminals. A notable result of technological consequences is the room-temperature amplification of the magnetoresistive effect, integrable with electronics circuits, demonstrated by computation of current dependence on magnetization configuration in such a system with currently achievable parameters
We apply an analysis of time-dependent spin-polarized current in a semiconductor channel at room tem...
The realisation that eaveryday electronics has ignored the spin of the carrier in favour of its char...
We study theoretically the propagation and distribution of electron spin density in semiconductors ...
Spintronics is an emerging field of research focused on introducing the electron spin degree of free...
The field of semiconductor spintronics explores spin-related quantum relativistic phenomena in solid...
In semiconductor spintronic devices, the semiconductor is usually lightly doped and nonde-generate, ...
The idea of utilizing the electron spin in semiconductor devices leads to the growth of the field se...
Until recently, mainstream electronics was exclusively based on charge proper- ties. Apart from char...
A theory of spin-polarized transport in inhomogeneous magnetic semiconductors is developed and appli...
A theory of spin-polarized transport in inhomogeneous magnetic semiconductors is developed and appli...
By incorporating spin-dependent properties and magnetism in semiconductor structures, new applicatio...
A theory of spin-polarized transport in inhomogeneous magnetic semiconductors is developed and appli...
By incorporating spin-dependent properties and magnetism in semiconductor structures, new applicatio...
We develop physical models for magnetic semiconductor devices, where a part of the device structure ...
We develop physical models for magnetic semiconductor devices, where a part of the device structure ...
We apply an analysis of time-dependent spin-polarized current in a semiconductor channel at room tem...
The realisation that eaveryday electronics has ignored the spin of the carrier in favour of its char...
We study theoretically the propagation and distribution of electron spin density in semiconductors ...
Spintronics is an emerging field of research focused on introducing the electron spin degree of free...
The field of semiconductor spintronics explores spin-related quantum relativistic phenomena in solid...
In semiconductor spintronic devices, the semiconductor is usually lightly doped and nonde-generate, ...
The idea of utilizing the electron spin in semiconductor devices leads to the growth of the field se...
Until recently, mainstream electronics was exclusively based on charge proper- ties. Apart from char...
A theory of spin-polarized transport in inhomogeneous magnetic semiconductors is developed and appli...
A theory of spin-polarized transport in inhomogeneous magnetic semiconductors is developed and appli...
By incorporating spin-dependent properties and magnetism in semiconductor structures, new applicatio...
A theory of spin-polarized transport in inhomogeneous magnetic semiconductors is developed and appli...
By incorporating spin-dependent properties and magnetism in semiconductor structures, new applicatio...
We develop physical models for magnetic semiconductor devices, where a part of the device structure ...
We develop physical models for magnetic semiconductor devices, where a part of the device structure ...
We apply an analysis of time-dependent spin-polarized current in a semiconductor channel at room tem...
The realisation that eaveryday electronics has ignored the spin of the carrier in favour of its char...
We study theoretically the propagation and distribution of electron spin density in semiconductors ...