NOISE AND BANDWIDTH MEASUREMENTS OF DIFFUSION-COOLED Nb HOT-ELECTRON BOLOMETER MIXERS AT FREQUENCIES ABOVE THE SUPERCONDUCTIVE ENERGY GAP

摘要

Diffusion-cooled Nb hot-electron bolometer (HEB) mixers have the potential to simultaneously achieve high intermediate frequency (IF) bandwidths and low mixer noise temperatures for operation at THz frequencies (above the superconductive gap energy). We have measured the IF signal bandwidth at 630 GHz of Nb devices with lengths L = 0.3, 0.2, and 0.1 μm in a quasioptical mixer configuration employing twin-slot antennas. The 3-dB IF bandwidth increased from 1.2 GHz for the 0.3 μm long device to 9.2 GHz for the 0.1μm long device. These results demonstrate the expected 1/L~2 dependence of the IF bandwidth at submillimeter wave frequencies for the first time, as well as the largest IF bandwidth obtained to date. For the 0.1 μm device, which had the largest bandwidth, the double sideband (DSB) noise temperature of the receiver was 320-470 K at 630 GHz with an absorbed LO power of 35 nW, estimated using the isothermal method. A version of this mixer with the antenna length scaled for operation at 2.5 THz has also been tested. A DSB receiver noise temperature of 1800 +- 100 K was achieved, which is about 1,000 K lower than our previously reported results. These results demonstrate that large IF bandwidth and low-noise operation of a diffusion-cooled HEB mixer is possible at THz frequencies with the same device geometry.