Ali Bahrami scite author profile

In this research, the sensing NaI (sodium iodide)–water concentration is achieved by using a local resonant two-dimensional solid–liquid phononic crystal (PnC) design. The sensor design consists of a square arrangement from stainless steel as a host matrix and a periodic array of water-filled circular scatterers. The sensing mechanism is based on the resonance frequencies confined around the NaI waveguide embedded in the middle of the sensor structure. Numerical simulations are carried out based on the finite element method (FEM). Our results showed that the resonant peak frequency varies significantly with the different NaI–water concentrations in the waveguide. Also, the sensor can differentiate between concentrations from 6%–45% with a 1% step, which is very acceptable for accurate detection and can solve many challenges in medical applications. Further, the sensor provided high performance for all NaI–water concentrations. For example, for a concentration range of 6% − 7%, the sensor has a sensitivity of 1714 Hz, a resolution of 59.5 Hz, a quality factor of 1401, a figure of merit (FOM) of 28, and a signal-to-noise ratio of 2.

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A novel proposal for DWDM demultiplexer design using modified-T photonic crystal structure

Rostami

Nazari

Alipour-Banaei

et al. 2010

Photonics and Nanostructures - Fundamentals and Applications

118

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Photonic crystal logic gates: an overview

2014

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Photovoltaic cells technology: principles and recent developments

2012

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Ali Bahrami

An ultra compact photonic crystal wavelength division demultiplexer using resonance cavities in a modified Y-branch structure

High performance design for detecting NaI–water concentrations using a two-dimensional phononic crystal biosensor

A novel proposal for DWDM demultiplexer design using modified-T photonic crystal structure

Photonic crystal logic gates: an overview

Photovoltaic cells technology: principles and recent developments

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