Abstract:
Normal-metal hot-electron bolometer with capacitive coupling (CCNHEB) is a further development of the concept of a normal-metal hot-electron bolometer with Andreev mirrors (ANHEB). It was proposed to eliminate the frequency and energy restrictions inherent in ANHEB, in which Andreev mirrors act efficiently only with relatively long absorbers and at energies below the superconducting gap. An important advantage of the CCNHEB is its simple topology, in which the same tunnel junctions provide thermal decoupling, noise protection, temperature measurement, and it can be used for electron cooling. The temperature response of the bolometer was measured at temperatures down to 260 mK. The observed response $dV/dT=1.7\,$mV/K corresponds to the sensitivity $S=0.4\times10^9\,$V/W. The measured noise at the amplifier output with this sample was found to be $V_{na}=4\,$nV/Hz$^{1/2}$, which corresponds to a noise-equivalent power of $10^{-17}\,$W/Hz$^{1/2}$. To measure optical response, black-body radiation was used as a source of signal inside the cryostat. The source was a thin NiCr film sputtered on a thin sapphire substrate and suspended by nylon threads. Optical measurements proved to be in good agreement with the dc measurements.
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