Title :
Temperature Dependence of High Frequency and Noise Performance of Sb-Heterostructure Millimeter-Wave Detectors
Author :
Su, N. ; Zhang, Z. ; Schulman, J.N. ; Fay, P.
Author_Institution :
Dept. of Electr. Eng., Notre Dame Univ., IN
fDate :
5/1/2007 12:00:00 AM
Abstract :
The temperature dependence of the microwave and noise performance of zero-bias Sb-heterostructure backward diodes for millimeter-wave detection have been investigated experimentally. Both the junction capacitance and junction resistance were found to decrease with decreasing temperature, while the intrinsic cutoff frequency and sensitivity are observed to increase as the temperature is lowered. A simple physical model that captures these effects is described. The directly measured voltage sensitivity at 50 GHz for a 2times2 mum 2 device increased from 3650 V/W at room temperature to 7190 V/W at 4.2 K. The measured noise equivalent power (NEP) decreased from 4.2 to 0.2 pW/Hz1/2 as the temperature was lowered from 298 K to 4.2 K when driven from a 50- Omega source. Based on the measured RF sensitivity, S-parameters, and noise spectrum, a NEP of 0.3 pW/Hz1/2 is projected for room-temperature operation at zero bias using a conjugately matched RF source
Keywords :
S-parameters; millimetre wave detectors; tunnel diodes; 298 K; 4.2 K; 50 GHz; 50 ohm; RF sensitivity; S-parameters; backward diodes; junction capacitance; junction resistance; millimeter-wave detection; millimeter-wave detectors; millimeter-wave diodes; noise equivalent power; noise spectrum; temperature dependence; tunnel diodes; zero-bias Sb-heterostructure; Capacitance; Cutoff frequency; Detectors; Diodes; Millimeter wave measurements; Noise measurement; Power measurement; Radio frequency; Temperature dependence; Temperature sensors; Backward diodes; Sb-heterostructure; millimeter-wave detectors; millimeter-wave diodes; temperature dependence; tunnel diodes;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2007.895377
