Add to ORKGOptimizing resonator shapes for maximizing the ratio of maximum to minimum gas pressure at an end of the resonator is investigated numerically. It is well known that the resonant frequencies and the nonlinear standing waveform in an acoustical resonator strongly depend on the resonator geometry. A quasi-Newton type scheme was used to find optimized axisymmetric resonator shapes achieving the maximum pressure compression ratio with an acceleration of constant amplitude. The acoustical field was solved using a one-dimensional model, and the resonance frequency shift and hysteresis effects were obtained through an automation scheme based on continuation method. Results are presented for optimizing three types of geometry: a cone, a horn-cone a...
The paper analyzes the nonlinear dynamic response of microresonators. A simple physical model of a s...
The paper analyzes the nonlinear dynamic response of microresonators. A simple physical model of a s...
The paper analyzes the nonlinear dynamic response of microresonators. A simple physical model of a s...
Optimizing resonator shapes for maximizing the ratio of maximum to minimum gas pressure at an end of...
It is well known that the resonator geometry strongly influences the resonant frequencies of an acou...
An investigation of the effect of resonator dimensions on nonlinear standing waves in shaped resonat...
This presentation presents work on numerical investigations of nonlinear acoustic phenomena in reson...
In this dissertation, the harmonic oscillations of gas-filled axisymmetric acoustic cavities near re...
Investigation of high amplitude pressure oscillations generated by boundary driving in shaped resona...
In this study, sound field inside acoustically-structurally coupled rectangular cavity excited by st...
Optimal cross-sectional shapes of whispering-gallery ring resonators with prescribed emission wavele...
Optimal cross-sectional shapes of whispering-gallery ring resonators with prescribed emission wavele...
This paper proposes a method for shape optimization in aero-acoustics and applies it to a Helmholtz ...
Controlling the nonlinearities of MEMS resonators is critical for their successful implementation in...
The paper analyzes the nonlinear dynamic response of microresonators. A simple physical model of a s...
The paper analyzes the nonlinear dynamic response of microresonators. A simple physical model of a s...
The paper analyzes the nonlinear dynamic response of microresonators. A simple physical model of a s...
The paper analyzes the nonlinear dynamic response of microresonators. A simple physical model of a s...
Optimizing resonator shapes for maximizing the ratio of maximum to minimum gas pressure at an end of...
It is well known that the resonator geometry strongly influences the resonant frequencies of an acou...
An investigation of the effect of resonator dimensions on nonlinear standing waves in shaped resonat...
This presentation presents work on numerical investigations of nonlinear acoustic phenomena in reson...
In this dissertation, the harmonic oscillations of gas-filled axisymmetric acoustic cavities near re...
Investigation of high amplitude pressure oscillations generated by boundary driving in shaped resona...
In this study, sound field inside acoustically-structurally coupled rectangular cavity excited by st...
Optimal cross-sectional shapes of whispering-gallery ring resonators with prescribed emission wavele...
Optimal cross-sectional shapes of whispering-gallery ring resonators with prescribed emission wavele...
This paper proposes a method for shape optimization in aero-acoustics and applies it to a Helmholtz ...
Controlling the nonlinearities of MEMS resonators is critical for their successful implementation in...
The paper analyzes the nonlinear dynamic response of microresonators. A simple physical model of a s...
The paper analyzes the nonlinear dynamic response of microresonators. A simple physical model of a s...
The paper analyzes the nonlinear dynamic response of microresonators. A simple physical model of a s...
The paper analyzes the nonlinear dynamic response of microresonators. A simple physical model of a s...