Toward understanding the depletion of two-level systems in ultrastable glasses

Abstract

The density of Two-level systems (TLS) controls the low-temperature thermal properties in glasses and has been found to be almost depleted in ultrastable glasses. While this depletion of TLS is thought to have a close relationship with the dramatic decrease of quasi-localized modes (QLMs), it has yet to be clearly formalized. In this work, we argue, based on the soft-potential model, that TLS correspond to QLMs with typical frequency ω0. The density n0 of TLS is proportional to both the density of QLMs DL(ω0), and the fraction of symmetric double-wells f(ω0) at ω0, i.e., n0 DL(ω0)f(ω0). We numerically estimate ω0 and n0 in computer glasses at different levels of stabilities, and find that ω0 is about 5\% to 10\% of the Debye frequency. n0 in ultrastable glasses is over 1000 times smaller than that in poorly prepared glasses, with both DL(ω0) and f(ω0) decreasing significantly. Remarkably, the order of magnitude of estimations for n0 agrees with that found in experiments in amorphous silicon. Our study paves the way to understanding the depletion of TLS through the rarefaction of QLMs.

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