Add to ORKGThe lowest resonant frequency of a cavity resonator is usually approximated by the classical Helmholtz formula. However, if the opening is rather large and the front wall is narrow this formula is no longer valid. Here we present a correction which is of third order in the ratio of the diameters of aperture and cavity. In addition to the high accuracy it allows to estimate the damping due to radiation. The result is found by applying the method of matched asymptotic expansions. The correction contains form factors describing the shapes of opening and cavity. They are computed for a number of standard geometries. Results are compared with numerical computations
It is well known that the resonance frequency (f) of a Helmholtz resonator depends on sound speed, ...
We calculate explicitly the space dependence of the radiative relaxation rates and associated level ...
The nonlinear behavior of a Helmholtz resonator is investigated numerically over a wide range of fre...
The lowest resonant frequency of a cavity resonator is usually approximated by the classical Helmhol...
Innovative meta-materials offer great flexibility for manipulating sound waves and assure unpreceden...
The nonlinear corrections for a Helmholtz resonator type impedance based on systematic asymptotic so...
Innovative meta-materials offer great flexibility for manipulating sound waves and assure unpreceden...
Helmholtz resonators are commonly used as narrowband sound absorbers in room acoustics applications....
\u3cp\u3eA systematic derivation of the solution of a nonlinear system of equations for the finite-l...
The object of research. Process of oscillation of the Helmholtz resonators. Investigated problem. D...
Helmholtz resonators reduce the noise level especially at the low frequency end of the sound spectru...
A Helmholtz resonator (HR) with an embedded aperture is an effective acoustic metamaterial for noise...
International audienceIn this work, we use the finite element method to study the acoustic propertie...
We calculate explicitly the space dependence of the radiative relaxation rates and associated level...
A new analytical model is proposed to calculate the resonance frequency and the input impedance of a...
It is well known that the resonance frequency (f) of a Helmholtz resonator depends on sound speed, ...
We calculate explicitly the space dependence of the radiative relaxation rates and associated level ...
The nonlinear behavior of a Helmholtz resonator is investigated numerically over a wide range of fre...
The lowest resonant frequency of a cavity resonator is usually approximated by the classical Helmhol...
Innovative meta-materials offer great flexibility for manipulating sound waves and assure unpreceden...
The nonlinear corrections for a Helmholtz resonator type impedance based on systematic asymptotic so...
Innovative meta-materials offer great flexibility for manipulating sound waves and assure unpreceden...
Helmholtz resonators are commonly used as narrowband sound absorbers in room acoustics applications....
\u3cp\u3eA systematic derivation of the solution of a nonlinear system of equations for the finite-l...
The object of research. Process of oscillation of the Helmholtz resonators. Investigated problem. D...
Helmholtz resonators reduce the noise level especially at the low frequency end of the sound spectru...
A Helmholtz resonator (HR) with an embedded aperture is an effective acoustic metamaterial for noise...
International audienceIn this work, we use the finite element method to study the acoustic propertie...
We calculate explicitly the space dependence of the radiative relaxation rates and associated level...
A new analytical model is proposed to calculate the resonance frequency and the input impedance of a...
It is well known that the resonance frequency (f) of a Helmholtz resonator depends on sound speed, ...
We calculate explicitly the space dependence of the radiative relaxation rates and associated level ...
The nonlinear behavior of a Helmholtz resonator is investigated numerically over a wide range of fre...