Abstract
Frequency-dependent conductivity measurements are reported in the charge-density-wave state of ${\mathrm{Ta}}_{1\mathrm{\ensuremath{-}}\mathrm{x}}$${\mathrm{Nb}}_{\mathrm{x}}$${\mathrm{S}}_{3}$ alloys at microwave and millimeter-wave frequencies. For increasing impurity concentration, the pinning frequency of the charge-density-wave collective response increases sharply while the damping of the response remains constant. Although both the classical and quantum tunneling models describe the small-amplitude ac response of the pure materials for \ensuremath{\omega}${\mathrm{\ensuremath{\omega}}}_{\mathrm{p}}$, our results clearly support a classical oscillator response for \ensuremath{\omega}>${\mathrm{\ensuremath{\omega}}}_{\mathrm{p}}$ and for the alloys.
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