Add to ORKGWe study the effect of gas rarefaction and wall confinement on the propagation of vibroacoustic disturbances in a microchannel, generated by non-uniform (localized) time-harmonic oscillations of one of the channel walls. The problem is studied in the entire range of gas rarefaction rates, combining continuum and free-molecular limit analyses with direct simulation Monte Carlo calculations. Gas rarefaction is found to strongly increase the signal decay rate, varying between a slowly decaying propagating wave parallel to the channel walls at continuum conditions, to a near-source confined acoustic perturbation in the free-molecular regime. The impact of the stationary scattering wall is examined in detail, and the effect of replacing between ...
Squeeze-film damping on microresonators is a significant damping source even when the surrounding ga...
Design of high quality factor (Q) micromechanical resonators depends critically on our understanding...
Some acoustic devices make use of closed cavities, filled with gas, the dimensions of which are of t...
We study the effect of gas rarefaction on the propagation of vibroacoustic sound in a two-dimensiona...
A sound propagation through a rarefied gas inside a two-dimensional cavity is investigated on the ba...
The transport of non-equilibrium gases in the flow regime of slightly rarefied gas dynamics within a...
We consider finite-amplitude acoustic disturbances propagating through media in which relaxation mec...
In this paper, the squeeze-film damping effect on the performance of nanoresonators in the free mole...
We derive a complete asymptotic expansion for the singularly perturbed problem of acoustic wave prop...
This paper investigates acoustic wave propagation in gas-saturated permeable lossy metamaterials, wh...
The distribution of perturbations of pressure and velocity in a rectangular resonator is considered....
Recent work in the acoustic metamaterial literature has focused on the design of metasurfaces that a...
The dynamic response of a gas bubble entrapped in a cavity on the surface of a submerged solid subje...
Weakly nonlinear sound propagation in a gas where molecular vibrational relaxation takes place is st...
Micro resonators have been extensively applied in MEMS industry over the past recent three decades. ...
Squeeze-film damping on microresonators is a significant damping source even when the surrounding ga...
Design of high quality factor (Q) micromechanical resonators depends critically on our understanding...
Some acoustic devices make use of closed cavities, filled with gas, the dimensions of which are of t...
We study the effect of gas rarefaction on the propagation of vibroacoustic sound in a two-dimensiona...
A sound propagation through a rarefied gas inside a two-dimensional cavity is investigated on the ba...
The transport of non-equilibrium gases in the flow regime of slightly rarefied gas dynamics within a...
We consider finite-amplitude acoustic disturbances propagating through media in which relaxation mec...
In this paper, the squeeze-film damping effect on the performance of nanoresonators in the free mole...
We derive a complete asymptotic expansion for the singularly perturbed problem of acoustic wave prop...
This paper investigates acoustic wave propagation in gas-saturated permeable lossy metamaterials, wh...
The distribution of perturbations of pressure and velocity in a rectangular resonator is considered....
Recent work in the acoustic metamaterial literature has focused on the design of metasurfaces that a...
The dynamic response of a gas bubble entrapped in a cavity on the surface of a submerged solid subje...
Weakly nonlinear sound propagation in a gas where molecular vibrational relaxation takes place is st...
Micro resonators have been extensively applied in MEMS industry over the past recent three decades. ...
Squeeze-film damping on microresonators is a significant damping source even when the surrounding ga...
Design of high quality factor (Q) micromechanical resonators depends critically on our understanding...
Some acoustic devices make use of closed cavities, filled with gas, the dimensions of which are of t...