Add to ORKGInternational audienceIn this paper, we propose an origami-based auxetic tunable Helmholtz resonator by controlling the volume of the cavity to allow a real-time tunability of the resonance frequency. The design is inspired by the waterbomb origami base, which expands when stretched and contracts when compressed. Such a foldable structure offers a wide range of volume variation, which corresponds to a larger frequency shift in the bandwidth of interest. Based on the design of the origami resonator, multi-physical models are established to understand and predict the parameters' effect on the device's behavior. After fabrication, experimental tests are conducted on physical prototypes to validate the models and illustrate the effectiveness of...
Traditional RF structures lack tunability in their electromagnetic (EM) response which is becoming e...
We combine numerical simulations and experiments to design a new class of reconfigurable waveguides ...
Acoustic rainbow trappers, based on frequency selective structures with graded geometries and/or pro...
International audienceIn this paper, we propose an origami-based auxetic tunable Helmholtz resonator...
International audienceA Helmholtz resonator is a passive acoustic device that enablesnoise reduction...
International audience"Helmholtz resonators have been historically one of the first engineered conce...
Today, the most exciting discoveries and fascinating accomplishments are performed on the peripherie...
Aujourd'hui, les découvertes les plus passionnantes et les réalisations les plus fascinantes se déro...
International audienceA Helmholtz resonator is a passive acoustic resonator classically used to cont...
We explore the impact of origami structure meta-materials on electromagnetic devices. Here two modul...
Vibration and sound control is critical to many practical engineering systems in order to minimise t...
We investigate using a reconfigurable metamaterial structure based on high permittivity dielectric e...
Wave propagation inside a fluid-media with periodically distributed solid-inclusions (viz. phononic ...
xvii, 125 leaves : ill. ; 30 cm.PolyU Library Call No.: [THS] LG51 .H577P BSE 2012 WangNoise abateme...
International audienceThis paper presents a new concept and strategy allowing adaptive control of a ...
Traditional RF structures lack tunability in their electromagnetic (EM) response which is becoming e...
We combine numerical simulations and experiments to design a new class of reconfigurable waveguides ...
Acoustic rainbow trappers, based on frequency selective structures with graded geometries and/or pro...
International audienceIn this paper, we propose an origami-based auxetic tunable Helmholtz resonator...
International audienceA Helmholtz resonator is a passive acoustic device that enablesnoise reduction...
International audience"Helmholtz resonators have been historically one of the first engineered conce...
Today, the most exciting discoveries and fascinating accomplishments are performed on the peripherie...
Aujourd'hui, les découvertes les plus passionnantes et les réalisations les plus fascinantes se déro...
International audienceA Helmholtz resonator is a passive acoustic resonator classically used to cont...
We explore the impact of origami structure meta-materials on electromagnetic devices. Here two modul...
Vibration and sound control is critical to many practical engineering systems in order to minimise t...
We investigate using a reconfigurable metamaterial structure based on high permittivity dielectric e...
Wave propagation inside a fluid-media with periodically distributed solid-inclusions (viz. phononic ...
xvii, 125 leaves : ill. ; 30 cm.PolyU Library Call No.: [THS] LG51 .H577P BSE 2012 WangNoise abateme...
International audienceThis paper presents a new concept and strategy allowing adaptive control of a ...
Traditional RF structures lack tunability in their electromagnetic (EM) response which is becoming e...
We combine numerical simulations and experiments to design a new class of reconfigurable waveguides ...
Acoustic rainbow trappers, based on frequency selective structures with graded geometries and/or pro...