Most microwave power standards adopt calorimetry techniques to calibrate the effective efficiency of a thermistor mount as transfer standard. Correction factor of the calorimeter is the key coefficent. To correct the influence of the power loss of the transmission line to the thermopile in the calorimeter, a thin copper flat foil will usually be put before the mount's input port to terminate the signal, as so to separate the transmission line (including the thermal isolation section and the interface flange) and foil dissipate RF power from the DUT. The flat foil short's reflection coefficient measurement is the main uncertainty contributer of the total calorimter measurement uncertainty. In this paper, we introduce a new evaluation technique which will reasonably reduce the correction factor uncertainty. The technique is based on electromagnetic field theory to get the short's RF dissipation power. The detailed analysis of its princple and results are provided.Index Terms -Microcalorimeter, microwave power, millimeter-wave power, primary standards.
TA(NIM) is being updated now. The new TA(NIM) uses an active hydrogen maser as a reference clock, and the frequency of TA(NIM) is steered by an algorithm to keep it the same as the NIM4 fountain clock, which is NIM's primary frequency standard. This paper introduces the generation of new TA(NIM), including the equations to predict maser frequency and the steering algorithm. The time difference and the frequency difference between the new TA(NIM) and UTC are also reported.
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