Abstract
Quasilocalized modes appear in the vibrational spectrum of amorphous solids at low frequency. Though never formalized, these modes are believed to have a close relationship with other important local excitations, including shear transformations and two-level systems. We provide a theory for their frequency density, D_{L}(ω)∼ω^{α}, that establishes this link for systems at zero temperature under quasistatic loading. It predicts two regimes depending on the density of shear transformations P(x)∼x^{θ} (with x the additional stress needed to trigger a shear transformation). If θ>1/4, then α=4 and a finite fraction of quasilocalized modes form shear transformations, whose amplitudes vanish at low frequencies. If θ<1/4, then α=3+4θ and all quasilocalized modes form shear transformations with a finite amplitude at vanishing frequencies. We confirm our predictions numerically.
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