Highly sensitive nano-TESs for gigahertz astronomy and dark matter search

Terahertz and sub-terahertz band detection has a key role both in fundamental interactions physic sand technological applications, such as medical imaging, industrial quality control and homeland security. In particular, transition edge sensors (TESs) and kinetic inductance detectors (KIDs) are the most employed bolometers and calorimeters in the THz and sub-THz band for astrophysics and astroparticles research. Here, we combine the widespread TES detection with the most advanced nano-technology to design, fabricate and experimentally demonstrate an innovative nanoscale TES (nano-TES). Thanks to the reduced dimensionality of the active region and the efficient Andreev mirror (AM) heat confinement, our devices reach state-of-the-art TES performance. In particular,as a bolomenter the nano-TES shows a noise equivalent power (NEP) of 5*10-20 W/Hz1/2 and a relaxation time of 10 ns for the sub-THz band, typical of cosmic microwave background studies. When operated as sisengle-photon sensor, the devices show a remarkable frequency resolution of 100 GHz, pointing towards the necessary energy sensitivity requested in laboratory axion arch experiments. Finally, different multiplexing schemes are proposed and sized for imaging applications.