Maryam Pourmahyabadi scite author profile

One of the key components in optical integrated circuits is bandpass filters. In this article, a scheme of plasmonic filters consisting of a nanodisk cavity coupled with two T -shaped metal–insulator–metal (MIM) waveguides is presented. The nanodisk cavity is in a square or rectangular shape. The effects of the geometrical parameters variations on the transmission spectrum are investigated. The results of the numerical simulation analysis indicate that the perfect transmission peak can be achieved by optimizing the structure parameters. Hence, the appropriate dimensions of this structure for operating in the optical communication wavelength range (from O to L bands) are obtained. Also, the proposed filter exhibits the transmission peak of 0.99 and the high quality factors ( Q -factors) of 91 and 109.25 at the wavelengths of 1550 nm and 1310 nm, respectively. In addition, a design of two-channel demultiplexer is presented, in which the waveguides are connected by T or Y junctions. The results show that the proposed structure exhibits the transmission peaks of 0.8 and 0.67 and the Q -factors of 65 and 103.3 at the resonance wavelengths of 1310 nm and 1550 nm, respectively.

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A novel content based image retrieval approach by fusion of short term learning methods

Bagheri

Pourmahyabadi

Nezamabadi‐pour

2013

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Optimal Dark Current Reduction in Quantum Well 9 Âµm GaAs/AlGaAs Infrared Photodetectors with Improved Detectivity

Nejad¹,

Olyaee²,

Pourmahyabadi³

2008

American J. of Applied Sciences

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Abstract:In this research, an optimization approach is presented to decrease the dark current in GaAs/AlGaAs QWIPs. The dark current noise is reduced by increasing Al density in barriers, decreasing detector dimensions and increasing the periodic length of the structure. In addition, increasing the number of periods can reduce both the dark current and responsivity. Therefore, devices can be optimally designed through judicious choice of these parameters. An optimal photodetector structure is designed and simulated to achieve low dark current (11nA) and detectivity of 1.4×10¹²cm(Hz) 1/2 /W which is an order of magnitude greater than the present values.

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The Performance Modeling of Ring Laser Gyro In Inertial Navigation

Mohammad

Pourmahyabadi

2006

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