Analysis of a high-power resonant-tunneling-diode terahertz oscillator integrated with a rectangular cavity resonator
Kazunori Kobayashi, Safumi Suzuki, Feifan Han, Hiroki Tanaka, Hidenari Fujikata, Masahiro Asada
Abstract
Abstract A resonant-tunneling diode (RTD) terahertz oscillator composed of a long narrow RTD and a rectangular cavity resonator is proposed, and its oscillation characteristics are simulated and analyzed. The rectangular cavity resonator reduces both the oscillator inductance and resistance, while the large-area RTD enables high output power with a high oscillation frequency. To estimate the radiation power accurately, a detailed equivalent circuit model was extracted from 3D electromagnetic simulation. From the analysis, the proposed device is expected to produce a high output power of approximately 2–3 mW at around 1 THz.
Topics & Concepts
Terahertz radiationResonant-tunneling diodeResonatorOscillation (cell signaling)InductanceOptoelectronicsDiodePower (physics)Quantum tunnellingTunnel diodePhysicsVackář oscillatorRLC circuitMaterials scienceOpticsElectrical engineeringCapacitorLaserVoltageEngineeringLocal oscillatorChemistryPhase noiseQuantum wellBiochemistryQuantum mechanicsTerahertz technology and applicationsSuperconducting and THz Device TechnologySemiconductor Quantum Structures and Devices