Add to ORKGWe present a theory for plasmonic crystal instability in a semiconductor field-effect transistor with a dual grating gate, designed with strong asymmetry in the crystal elementary cell. Under the action of a dc current bias, we demonstrate that Bloch plasma waves in the resulting plasmonic crystal, formed in this transistor, develop the Dyakonov-Shur instability across the entire Brillouin zone. By calculating the energy spectrum of the plasmonic crystal and its instability increments, we analyze the dependence of the latter on the electron drift velocity and the extent of the structural asymmetry. Our results point to the possibility of exciting radiating steady-state plasma oscillations at room temperature, in transistors with asymmetric ...
We theoretically investigate a new pathway for terahertz parametric amplification, initiated by abov...
We investigate theoretically the enhanced THz extinction by periodic arrays of semiconductor particl...
We demonstrate engineering of the low-terahertz range plasmonic spectra of two-dimensional electron ...
We demonstrate the excitation and electrostatic modulation of a planar, resonant plasmonic circuit, ...
The current flowing in two-dimensional channel of field effect transistors can generate different ty...
We report on the numerical and theoretical results of sub-THz and THz detection by a current-driven ...
Ever increasing demands of data traffic makes the transition to 6G communications in the 300 GHz ban...
Plasmons existing along a semiconductor heterostructure found in a high electron mobility transistor...
In this paper, we present the validity and potential capacity of a modeling and simulation environme...
Terahertz (THz) devices are designed to operate from 0.1-10 THz. The THz spectra have unique propert...
Strong plasmon resonances have been observed in the terahertz transmission spectra (1-5 THz) of larg...
Double-quantum-well field-effect transistors with a grating gate exhibit a sharply resonant, voltage...
Plasmonic waves are waves of mobile charge carriers caused by their collective oscillations. They ca...
We fabricated a two-dimensional-electron-gas field effect transistor with an asymmetric terahertz an...
Advances in theory are needed to match recent progress in measurements of coupled semiconductor reso...
We theoretically investigate a new pathway for terahertz parametric amplification, initiated by abov...
We investigate theoretically the enhanced THz extinction by periodic arrays of semiconductor particl...
We demonstrate engineering of the low-terahertz range plasmonic spectra of two-dimensional electron ...
We demonstrate the excitation and electrostatic modulation of a planar, resonant plasmonic circuit, ...
The current flowing in two-dimensional channel of field effect transistors can generate different ty...
We report on the numerical and theoretical results of sub-THz and THz detection by a current-driven ...
Ever increasing demands of data traffic makes the transition to 6G communications in the 300 GHz ban...
Plasmons existing along a semiconductor heterostructure found in a high electron mobility transistor...
In this paper, we present the validity and potential capacity of a modeling and simulation environme...
Terahertz (THz) devices are designed to operate from 0.1-10 THz. The THz spectra have unique propert...
Strong plasmon resonances have been observed in the terahertz transmission spectra (1-5 THz) of larg...
Double-quantum-well field-effect transistors with a grating gate exhibit a sharply resonant, voltage...
Plasmonic waves are waves of mobile charge carriers caused by their collective oscillations. They ca...
We fabricated a two-dimensional-electron-gas field effect transistor with an asymmetric terahertz an...
Advances in theory are needed to match recent progress in measurements of coupled semiconductor reso...
We theoretically investigate a new pathway for terahertz parametric amplification, initiated by abov...
We investigate theoretically the enhanced THz extinction by periodic arrays of semiconductor particl...
We demonstrate engineering of the low-terahertz range plasmonic spectra of two-dimensional electron ...