Add to ORKGWe study high-frequency generation in a system of electromagnetically coupled semiconductor superlattices fabricated on the same doped substrate. Applying a bias voltage to a single superlattice generates high-frequency current oscillations. We demonstrate that within a certain range of the applied voltage, the current oscillations within the superlattices can be self-synchronized, which leads to a dramatic rise in the generated microwave power. These results, which are in good agreement with our numerical model, open a promising practical route towards the design of high-power miniature microwave generators
Time periodic patterns in a semiconductor superlattice, relevant to microwave generation, are obtain...
We investigate the onset of broadband microwave chaos in the miniband semiconductor superlattice cou...
Time periodic patterns in a semiconductor superlattice, relevant to microwave generation, are obtain...
We study high-frequency generation in a system of electromagnetically coupled semiconductor superlat...
We study high-frequency generation in a system of electromagnetically coupled semiconductor superlat...
We study high-frequency generation in a system of electromagnetically coupled semiconductor superlat...
We study high-frequency generation in a system of electromagnetically coupled semiconductor superlat...
We study high-frequency generation in a system of electromagnetically coupled semiconductor superlat...
We theoretically show that two semiconductor superlattices arranged on the same substrate and couple...
We present the proposal of a microwave-driven semiconductor superlattice oscillator. We show that th...
We present the proposal of a microwave-driven semiconductor superlattice oscillator. We show that th...
A GaAs/AlAs superlattice with a large miniband (120 meV) showed self-sustained current oscillation a...
A GaAs/AlAs superlattice with a large miniband (120 meV) showed self-sustained current oscillation a...
We report on a semiconductor-superlattice oscillator with a superlattice electronic device (SLED) co...
Time periodic patterns in a semiconductor superlattice, relevant to microwave generation, are obtain...
Time periodic patterns in a semiconductor superlattice, relevant to microwave generation, are obtain...
We investigate the onset of broadband microwave chaos in the miniband semiconductor superlattice cou...
Time periodic patterns in a semiconductor superlattice, relevant to microwave generation, are obtain...
We study high-frequency generation in a system of electromagnetically coupled semiconductor superlat...
We study high-frequency generation in a system of electromagnetically coupled semiconductor superlat...
We study high-frequency generation in a system of electromagnetically coupled semiconductor superlat...
We study high-frequency generation in a system of electromagnetically coupled semiconductor superlat...
We study high-frequency generation in a system of electromagnetically coupled semiconductor superlat...
We theoretically show that two semiconductor superlattices arranged on the same substrate and couple...
We present the proposal of a microwave-driven semiconductor superlattice oscillator. We show that th...
We present the proposal of a microwave-driven semiconductor superlattice oscillator. We show that th...
A GaAs/AlAs superlattice with a large miniband (120 meV) showed self-sustained current oscillation a...
A GaAs/AlAs superlattice with a large miniband (120 meV) showed self-sustained current oscillation a...
We report on a semiconductor-superlattice oscillator with a superlattice electronic device (SLED) co...
Time periodic patterns in a semiconductor superlattice, relevant to microwave generation, are obtain...
Time periodic patterns in a semiconductor superlattice, relevant to microwave generation, are obtain...
We investigate the onset of broadband microwave chaos in the miniband semiconductor superlattice cou...
Time periodic patterns in a semiconductor superlattice, relevant to microwave generation, are obtain...