Millisecond Electron-Phonon Relaxation in Ultrathin Disordered Metal Films at Millikelvin Temperatures

Abstract

We have measured directly the thermal conductance between electrons and phonons in ultra-thin Hf and Ti films at millikelvin temperatures. The experimental data indicate that electron-phonon coupling in these films is significantly suppressed by disorder. The electron cooling time τε follows the T-4-dependence with a record-long value τε=25ms at T=0.04K. The hot-electron detectors of far-infrared radiation, fabricated from such films, are expected to have a very high sensitivity. The noise equivalent power of a detector with the area 1μm2 would be (2-3)10-20W/Hz1/2, which is two orders of magnitude smaller than that of the state-of-the-art bolometers.

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