Pursuing the feasibility of a large array of transition-edge sensors for future astrophysical missions, we have undertaken a study of multilayer readout wiring. It is composed of thin superconducting signal and return wires made of Al or Nb that sandwich an insulation SiO2 film. Self and mutual inductances between signal and return wires of pixels, and also self fielding of bias leads can be reduced. Also a necessary spatial resource can be half compared to a normal wiring. We have fabricated four types of 20 × 20 wiring samples whose upper and lower wiring widths were 10 and 15 μm. High process yields of 95 ~ 97% were confirmed for all the four arrays in resistance measurements at room temperature. At low temperature, Al-Al samples showed sharp superconducting transitions, low residual resistances 1 ~ 2 mΩ, and high critical currents of >; 100 μA, which suggests that they can be used as our TES readout wiring. On the other hand, Nb-Al samples showed slow transitions and low critical currents ( <; 10 μA). Energy dispersive X-ray spectroscopy measurements indicated that impurities between Al and Nb films at electrical contacts influence these features.
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