Litcius/Paper detail

Smaller antenna-gate gap for higher sensitivity of GaN/AlGaN HEMT terahertz detectors

Jiandong Sun, Wei Feng, Qingfeng Ding, Yifan Zhu, Zhipeng Zhang, Xiang Li, Hua Qin, Jinfeng Zhang, Xinxing Li, Yang Shangguan, Lin Jin, Yunfei Sun, V. V. Popov

2020Applied Physics Letters22 citationsDOI

Abstract

We report an attempt to improve the sensitivity of terahertz detection based on self-mixing in antenna-coupled field-effect transistors by enhancing the field-effect factor and the antenna factor with a reduced gate length and a reduced antenna-gate gap, respectively. An optical noise equivalent power (NEP) of 3.7 pW/Hz at 0.65 THz was achieved in a GaN/AlGaN high-electron-mobility transistor (HEMT) with a gate length of 300 nm and an antenna-gate gap of 200 nm at room temperature. It was found that the antenna factor was inversely proportional to the antenna-gate gap, and the responses upon coherent/incoherent terahertz irradiation were well described by the self-mixing model. To fill the NEP gap of 0.1−1 pW/Hz between room-temperature and cryogenic detectors by HEMT-based detectors at room temperature, impedance match needs to be carefully considered.

Topics & Concepts

High-electron-mobility transistorOptoelectronicsTerahertz radiationMaterials scienceNoise-equivalent powerAntenna (radio)Sensitivity (control systems)Field-effect transistorTransistorPhysicsResponsivityElectrical engineeringPhotodetectorElectronic engineeringVoltageEngineeringQuantum mechanicsTerahertz technology and applicationsSuperconducting and THz Device TechnologyRadio Frequency Integrated Circuit Design