Diffraction of Quantum Dots Reveals Nanoscale Ultrafast Energy Localization

作者:Vanacore Giovanni M; Hu Jianbo; Liang Wenxi; Bietti Sergio; Sanguinetti Stefano; Zewail Ahmed H*
来源:Nano Letters, 2014, 14(11): 6148-6154.
DOI:10.1021/nl502293a

摘要

Unlike in bulk materials, energy transport in low-dimensional and nanoscale systems may be governed by a coherent ballistic behavior of lattice vibrations, the phonons. If dominant, such behavior would determine the mechanism for transport and relaxation in various energy-conversion applications. In order to study this coherent limit, both the spatial and temporal resolutions must be sufficient for the length-time scales involved. Here, we report observation of the lattice dynamics in nanoscale quantum dots of gallium arsenide using ultrafast electron diffraction. By varying the dot size from h = 11 to 46 nm, the length scale effect was examined, together with the temporal change. When the dot size is smaller than the inelastic phonon mean-free path, the energy remains localized in high-energy acoustic modes that travel coherently within the dot. As the dot size increases, an energy dissipation toward low-energy phonons takes place, and the transport becomes diffusive. Because ultrafast diffraction provides the atomic-scale resolution and a sufficiently high time resolution, other nanostructured materials can be studied similarly to elucidate the nature of dynamical energy localization.

  • 出版日期2014-11