Add to ORKGThe interaction of electrons in a superlattice with electromagnetic radiation in presence of static electric and magnetic fields is investigated. The electric field is directed along the superlattice axis while the magnetic field is inclined at an arbitrary angle to the axis of superlattice. It is shown that the dependence of current in the superlattice on electric field in the general case can have several maxima. In some regions of electric and magnetic field values, the absorption coefficient for high frequency electromagnetic radiation can be negative that means the electromagnetic wave will be amplified. We note that negative absorption in the system is possible at some conditions at the region of positive differential conductivity in ...
The transversal conductivity of the graphene superlattice under electromagnetic radiation and consta...
The paper studies instabilities of charge transport in strongly coupled semiconductor superlattices ...
Abstract. Bloch oscillation in electrically biased semiconductor superlattices offers broadband tera...
We theoretically analyze the influence of magnetic field on small-signal absorption and gain in a su...
In a superlattice placed in crossed static electric and magnetic fields, under certain conditions, t...
Quantum superlattice with a narrow energy band is an artificial semiconductor structure demonstratin...
Abstract The most important paradigms in quantum mechanics are probably a twolevel system, a harmoni...
Charge-carriers propagating in superlattices exhibit the related phenomena known as negative differe...
We theoretically study the feasibility of amplification and generation of terahertz radiation in dc-...
A detailed analysis of the optical and transport properties of semiconductor superlattices in the hi...
The currents of de and ac components and their phase-angle cosines for a superlattice under a direct...
We study electron transport through a semiconductor superlattice subject to an electric field parall...
We theoretically studied the possibility of frequency multiplication using propagating dipole domain...
We find the conditions for a rectification of electromagnetic wave in a lateral semiconductor superl...
We study the effects of dissipation on electron transport in a semiconductor superlattice with an ap...
The transversal conductivity of the graphene superlattice under electromagnetic radiation and consta...
The paper studies instabilities of charge transport in strongly coupled semiconductor superlattices ...
Abstract. Bloch oscillation in electrically biased semiconductor superlattices offers broadband tera...
We theoretically analyze the influence of magnetic field on small-signal absorption and gain in a su...
In a superlattice placed in crossed static electric and magnetic fields, under certain conditions, t...
Quantum superlattice with a narrow energy band is an artificial semiconductor structure demonstratin...
Abstract The most important paradigms in quantum mechanics are probably a twolevel system, a harmoni...
Charge-carriers propagating in superlattices exhibit the related phenomena known as negative differe...
We theoretically study the feasibility of amplification and generation of terahertz radiation in dc-...
A detailed analysis of the optical and transport properties of semiconductor superlattices in the hi...
The currents of de and ac components and their phase-angle cosines for a superlattice under a direct...
We study electron transport through a semiconductor superlattice subject to an electric field parall...
We theoretically studied the possibility of frequency multiplication using propagating dipole domain...
We find the conditions for a rectification of electromagnetic wave in a lateral semiconductor superl...
We study the effects of dissipation on electron transport in a semiconductor superlattice with an ap...
The transversal conductivity of the graphene superlattice under electromagnetic radiation and consta...
The paper studies instabilities of charge transport in strongly coupled semiconductor superlattices ...
Abstract. Bloch oscillation in electrically biased semiconductor superlattices offers broadband tera...