高频纳米流体学：使用纳米机械谐振器的实验研究。

High-frequency nanofluidics: an experimental study using nanomechanical resonators.

作者信息

Karabacak D M, Yakhot V, Ekinci K L

机构信息

Department of Aerospace and Mechanical Engineering, Boston University, Boston, Massachusetts 02215, USA.

出版信息

Phys Rev Lett. 2007 Jun 22;98(25):254505. doi: 10.1103/PhysRevLett.98.254505.

DOI:10.1103/PhysRevLett.98.254505

PMID:17678031

Abstract

Here we apply nanomechanical resonators to the study of oscillatory fluid dynamics. A high-resonance-frequency nanomechanical resonator generates a rapidly oscillating flow in a surrounding gaseous environment; the nature of the flow is studied through the flow-resonator interaction. Over the broad frequency and pressure range explored, we observe signs of a transition from Newtonian to non-Newtonian flow at omega tau approximately 1, where tau is a properly defined fluid relaxation time. The obtained experimental data appear to be in close quantitative agreement with a theory that predicts a purely elastic fluid response as omega tau --> infinity.

摘要

在此，我们将纳米机械谐振器应用于振荡流体动力学的研究。高共振频率的纳米机械谐振器在周围气体环境中产生快速振荡流；通过流 - 谐振器相互作用来研究流的性质。在所探索的宽频率和压力范围内，我们观察到在ωτ约为1时出现从牛顿流到非牛顿流转变的迹象，其中τ是恰当定义的流体弛豫时间。所获得的实验数据似乎与一种理论在定量上密切相符，该理论预测当ωτ趋于无穷时流体呈现纯弹性响应。

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高频纳米流体学：使用纳米机械谐振器的实验研究。

High-frequency nanofluidics: an experimental study using nanomechanical resonators.

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