A Broadband Dual-Polarized Terahertz Direct Detector In A 0.13-Mu M Sige Hbt Technology

This paper presents a dual-polarized terahertz (THz) direct detector with an integrated, differential wire-ring antenna, coupled to an external silicon lens. It is implemented in an advanced 0.13-mu m SiGe HBT technology with f(T)/f(max) of 350/550 GHz. It comprises two pairs of differentially driven HBT transistors in common-base (CB) configuration. Their voltage-mode readout is characterized in the forward-active and in the saturation region with an external load resistance of 1.83 k Omega. In the forward-active region the detector's optical noise equivalent power (NEP) is lower than 38 pW/root Hz in the measured 220-1000 GHz band. Best NEP values of 2.7 to 3.4 pW/root Hz were measured in the frequency range of 430 to 476 GHz, corresponding to a voltage responsivity of 5 +/- 0:6 kV/W. In the saturation region the minimum NEP with no collector biasing is 8.2 pW/root Hz. This is the first reported silicon-integrated SiGe HBT THz direct detector, operating at room temperature, with an NEP below 10 pW/root Hz in the frequency range between 300 GHz and 500 GHz.