Decoupling between propagating acoustic waves and two-level systems in hydrogenated amorphous silicon

Abstract: Specific heat measurements of hydrogenated amorphous silicon prepared by hot-wire chemical vapor deposition show a large density of two-level systems at low temperature. Annealing at 200• C, well below the growth temperature, does not significantly affect the already-low internal friction or the sound velocity, but irreversibly reduces the non-Debye specific heat by an order of magnitude at 2 K, indicating a large reduction of the density of two-level systems. Comparison of the specific heat to the internal fr… Show more

“…Such dynamics may be related to the bosonic peak ubiquitous in the spectra of amorphous materials [37][38][39] and to the problem of phonon glass [40,41], and may be associated with quasilocalized nonlinear defect states such as bistable atomic configurations [top inset in Fig. 4(a)], as well as interstitial impurities and incoherent interfaces [42,43].…”

Transport and relaxation of current-generated nonequilibrium phonons from nonlocal electronic measurements

“…Such dynamics may be related to the bosonic peak ubiquitous in the spectra of amorphous materials [37][38][39] and to the problem of phonon glass [40,41], and may be associated with quasilocalized nonlinear defect states such as bistable atomic configurations [top inset in Fig. 4(a)], as well as interstitial impurities and incoherent interfaces [42,43].…”

Transport and relaxation of current-generated nonequilibrium phonons from nonlocal electronic measurements