Temperature-frequency scaling in amorphous niobium-silicon near the metal-insulator transition
Abstract
Millimeter-wave transmission measurements have been performed in amorphous niobium-silicon alloy samples where the DC conductivity follows the critical temperature dependence σdc T1/2. The real part of the conductivity is obtained at eight frequencies in the range 87--1040 GHz for temperatures 2.6 K and above. In the quantum regime ( ω > kB T) the real part of the high-frequency conductivity has a power-law frequency dependence Re~σ(ω) ω1/2. For temperatures 16 K and below the data exhibits temperature-frequency scaling predicted by theories of dynamics near quantum-critical points.
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