Babak Rostami-Dogolsara scite author profile

We present the design procedure for switchable acoustic demultiplexers based on a fluid-fluid phononic crystal (PnC) platform. It consists of a T-shaped PnC waveguide coupled to two output waveguide ports through two dissimilar point-defect cavities. The PnC platform consists of a periodic array of infinitely long rods of water (inclusions) embedded in mercury background. The waveguides are made by the removal of a row or a column of inclusions from the PnC, while the fluid in one of the two dissimilar cavities is methyl nonafluorobutyl ether (MNE) and in the other is ethyl nonafluorobutyl ether (ENE). The difference in the sound velocity in MNE and ENE provides an adequate difference in the dissimilar cavities resonant modes, required for the demultiplexing functionality of the designed structure. The different dependences of the sound velocities in these two fluids on temperature have also enabled the switching of the multiplexed channel, simply by appropriately changing the cavities temperature.

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Acoustic add-drop filters based on phononic crystal ring resonators

Rostami-Dogolsara

Moravvej-Farshi

Nazari

2016

Phys. Rev. B

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Designing phononic crystal based tunable four-channel acoustic demultiplexer

Rostami-Dogolsara

Moravvej-Farshi

Nazari

2019

Journal of Molecular Liquids

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Acoustic 1 × 2 demultiplexer based on fluid-fluid phononic crystal ring resonators

Rostami

Kaatuzian

Rostami-Dogolsara

2020

Journal of Molecular Liquids

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Design and analysis of tunable acoustic channel drop filter based on fluid–fluid phononic crystal ring resonators

2021

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