摘要
We identify a possible mechanism of the plasmon instabilities in periodically gated two-dimensional electron systems with a modulated electron density (plasmonic crystals) under direct current. The instability occurs due to the amplified reflection of the small density perturbations from the gated/ungated boundaries under the proper phase-matching conditions between the crystal unit cells. Based on the transfer-matrix formalism, we derive the generic dispersion equation for the traveling plasmons in these structures. Its solution in the hydrodynamic limit shows that the threshold drift velocity for the instability can be tuned below the plasmon phase and carrier saturation velocities, and the plasmon growth rate can exceed the collisional damping rate typical of III-V semiconductors and graphene at room temperature.
- 出版日期2017-1-4