Rukhsar Zafar scite author profile

Surface plasmon modes possesses an intriguing feature of confining light beyond diffraction limit which makes it very attractive for sensing applications. Here, we theoretically investigated an ultra compact surface Plasmon (SP) sensor using Metal-Insulator-Metal (MIM) waveguide geometry. MIM waveguide is coupled to a pair of stub resonators and both the stub resonators are loaded with a metallic nano slit of silver. The stubs and MIM waveguide are filled with liquid/ gaseous material which is to be sensed. The Fano resonance which is very sensitive to any change in refractive index of the material, is excited in the structure by breaking marginal symmetry. The Structure is numerically simulated by Finite Difference Time Domain (FDTD) method and the result shows that resonance wavelength has a linear relation with refractive index of the material under sensing. In the optimum design of proposed sensor, the maximum sensitivity is obtained as high as S= 1060 nm/RIU with large value of Figure of merit (FOM=176.7) and an ultra narrow linewidth ∆ = . Thus, the device is well suited for designing on-chip optical sensors.

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Plasmonics-Based Refractive Index Sensor for Detection of Hemoglobin Concentration

Zafar

Nawaz

Singh

et al. 2018

IEEE Sensors J.

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Metallic Slit–Loaded Ring Resonator–Based Plasmonic Demultiplexer with Large Crosstalk

et al. 2018

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Improved design of photonic crystal waveguides with elliptical holes for enhanced slow light performance

2012

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Wideband slow light achievement in MIM plasmonic waveguide by controlling Fano resonance

Zafar

Salim

2014

Infrared Physics & Technology

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Rukhsar Zafar

Enhanced Figure of Merit in Fano Resonance-Based Plasmonic Refractive Index Sensor

Plasmonics-Based Refractive Index Sensor for Detection of Hemoglobin Concentration

Metallic Slit–Loaded Ring Resonator–Based Plasmonic Demultiplexer with Large Crosstalk

Improved design of photonic crystal waveguides with elliptical holes for enhanced slow light performance

Wideband slow light achievement in MIM plasmonic waveguide by controlling Fano resonance

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