Device: M14 C10 in the STO2 mixer block 2015-04-09 Antenna: Twin slot for 1.9 THz Measurement date Xuxiang Liu/Wouter Results summary and setup information Optics and LO Lo frequency Beam splitter Dewar window Heat filter(s) HEB lens Air loss Total optics loss in signal path Aditional optics: voice coil Polarizer grid HDPE lens 1.9 THz Gas laser (CH2F2) 3 um mylar (-0.2dB) 1.2 mm UHMW-PE (-1dB) QMC metal mesh W907 @ 4K, open @ 77K (-0.2 dB) 10mm Ø coated elliptical lens (-1dB) 20 cm, ~30% humidity (-0.2 dB) -2.6 dB - IF circuitry 4K 300K Total gain: HEB;Bias T; CITLF4 SN124 (42 dB), -6 dB attenuator; Miteq AMF-4D-100600-23D (38dB);tunable K&N filter (-1 dB) (or YIG filter), -10 dB attenuator, Miteq AFS3-00101200-35-ULN (27 dB), fast Agilent IF power head. 90 dB Device R300K Ic Tc Antenna Device size 132.9 Ω 100 µA Twin slot for 1.9 THz 1.5 x 0.2 um / SiO2 Results Phot / Pcold / Pshorted / U factor DSB mixer gain (including all optical losses) Y-factor at optimum bias and LO DSB Trec Absorbed LO power at optimum pumping 1.063 dB 675 K 92 nW Using a FIR cryostat, so the mixer block temperature is assumed to be 4.2-4.3 K, but not measured 1. System Setup Information Optics: FIR Laser→Lens→Voice coil / polarizer →Beam splitter→Cryostat Setup + device images 2. I-V Curves and pump power I-V curves of un-pumped and optimal pumped situation are shown for a bias voltage sweep of 10 to 10mV. The optimal pumped power is about 92 nW The IV curves for varying bias currents, 0.8mV are shown as below: 3. DSB Trec using variable LO Measurements of DSB receiver noise temperature using a fixed bias voltage and varying LO power are shown below. LO power is varied using the swing arm voice coil. Y-factor and receiver noise temperature at optimum are 1.063 dB and 675 K respectively. The optimal bias point is (0.8mV, 0.026mA) Noise temperature versus bias point: 4. IF Noise. The IF noise is measured from 0 to 7 GHz, at the optimal bias point (0.8mV, 0.025mA). There is a ripple in the data. This is attributed to the mismatch in the impedances between the HEB and IF circuit. The ripple is time independent, that has been checked. We also measure the IF noise at (0.6mV, 0.024mA): This looks like the standing wave.