We detect the coherent submillimetre-wave radiation from electron Bloch oscillations in a biased GaAs/AlGaAs semiconductor superlattice by time-resolved terahertz (THz) spectroscopy. The emitted THz radiation is tunable from 0.3 to 4 THz. The emission from Bloch oscillations is observable for temperatures as high as 100 K
We report unambiguous experimental evidence for electron Bloch oscillations: The transient four-wave...
Terahertz (THz) electromagnetic field, which lies in the frequency gap between the infrared and micr...
Abstract. Bloch oscillation in electrically biased semiconductor superlattices offers broadband tera...
We directly detect the coherent electromagnetic radiation originating from Bloch oscillations of cha...
A brief summary of the time-resolved investigation of Bloch oscillations of electron wave packets in...
Bloch oscillations in GaAs/AlGaAs superlattices are investigated in a comparative study by time-reso...
The status quo of the research on Bloch oscillations in semiconductor superlattices is outlined. Blo...
The coherent excitation of excitonic wavepackets in AlGaAs/GaAs superlattices is investigated in a c...
We have performed a joint theoretical and experimental study to investigate the terahertz radiation ...
We have investigated terahertz (THz) emission due to dynamical electron transport in wide miniband G...
We have demonstrated the possibility of a Bloch oscillator emitting bias tunable submillimeter-wave ...
We report on the observation of coherent electronic wave-packet oscillations in a semiconductor hete...
Applying a Monte Carlo technique for the simulation of the dynamics of electrons in a semiconductor ...
The coherent motion of electronic wave packets in the Wannier-Stark regime of externally biased GaAs...
International audienceUsing the Boltzmann transport equation, we have analyzed the transient teraher...
We report unambiguous experimental evidence for electron Bloch oscillations: The transient four-wave...
Terahertz (THz) electromagnetic field, which lies in the frequency gap between the infrared and micr...
Abstract. Bloch oscillation in electrically biased semiconductor superlattices offers broadband tera...
We directly detect the coherent electromagnetic radiation originating from Bloch oscillations of cha...
A brief summary of the time-resolved investigation of Bloch oscillations of electron wave packets in...
Bloch oscillations in GaAs/AlGaAs superlattices are investigated in a comparative study by time-reso...
The status quo of the research on Bloch oscillations in semiconductor superlattices is outlined. Blo...
The coherent excitation of excitonic wavepackets in AlGaAs/GaAs superlattices is investigated in a c...
We have performed a joint theoretical and experimental study to investigate the terahertz radiation ...
We have investigated terahertz (THz) emission due to dynamical electron transport in wide miniband G...
We have demonstrated the possibility of a Bloch oscillator emitting bias tunable submillimeter-wave ...
We report on the observation of coherent electronic wave-packet oscillations in a semiconductor hete...
Applying a Monte Carlo technique for the simulation of the dynamics of electrons in a semiconductor ...
The coherent motion of electronic wave packets in the Wannier-Stark regime of externally biased GaAs...
International audienceUsing the Boltzmann transport equation, we have analyzed the transient teraher...
We report unambiguous experimental evidence for electron Bloch oscillations: The transient four-wave...
Terahertz (THz) electromagnetic field, which lies in the frequency gap between the infrared and micr...
Abstract. Bloch oscillation in electrically biased semiconductor superlattices offers broadband tera...
DOI
Add to ORKG