Add to ORKGA four-layer slab waveguide structure with a lossy left-handed material (LHM) core layer is investigated as a surface sensor for detection any change in an adlayer thickness and refractive index. The sensitivities of the effective refractive index to any change in the refractive index/thickness of the adlayer are derived and studied with the parameters of the LHM. It is found that a slight change in the real parts of the permittivity and permeability of the LHM can significantly improve the sensitivity of the proposed sensor
The use of plasmonic sensor devices often requires replaceable parts and disposable chips for easy, ...
The use of plasmonic sensor devices often requires replaceable parts and disposable chips for easy, ...
An investigation of guided modes supported by an asymmetrical three layer metal-clad waveguide struc...
A three-layer slab waveguide with air core layer and anisotropic left-handed material claddings is i...
A slab waveguide structure consisting of five layers is studied for optical sensing applications. Th...
An optical slab waveguide sensor is proposed. The structure of the proposed sensor consists of three...
In this paper, a four-layer slab waveguide sensor is proposed. The waveguide has the conventional st...
"A four-layer slab waveguide is treated analytically for optical sensing purposes. The layers of th...
The sensitivity of planar waveguide sensor containing dielectric, superconductor, and left-handed ma...
This paper presents asymmetric three-layer slab waveguide structure in which all layers are consider...
A three-layer slab waveguide with air as a substrate, lossless dielectric as a guiding film, and ani...
In the present paper, an analytical theory will be investigated for studying three-layer slab wavegu...
An investigation of guided modes supported by an asymmetrical three layer metal-clad waveguide struc...
Abstract Sensitivities of three-layer and four-layer planar waveguide sensors having metamaterial as...
Lossy mode resonance (LMR)-based sensors have been proven as one of the exponentially growing resear...
The use of plasmonic sensor devices often requires replaceable parts and disposable chips for easy, ...
The use of plasmonic sensor devices often requires replaceable parts and disposable chips for easy, ...
An investigation of guided modes supported by an asymmetrical three layer metal-clad waveguide struc...
A three-layer slab waveguide with air core layer and anisotropic left-handed material claddings is i...
A slab waveguide structure consisting of five layers is studied for optical sensing applications. Th...
An optical slab waveguide sensor is proposed. The structure of the proposed sensor consists of three...
In this paper, a four-layer slab waveguide sensor is proposed. The waveguide has the conventional st...
"A four-layer slab waveguide is treated analytically for optical sensing purposes. The layers of th...
The sensitivity of planar waveguide sensor containing dielectric, superconductor, and left-handed ma...
This paper presents asymmetric three-layer slab waveguide structure in which all layers are consider...
A three-layer slab waveguide with air as a substrate, lossless dielectric as a guiding film, and ani...
In the present paper, an analytical theory will be investigated for studying three-layer slab wavegu...
An investigation of guided modes supported by an asymmetrical three layer metal-clad waveguide struc...
Abstract Sensitivities of three-layer and four-layer planar waveguide sensors having metamaterial as...
Lossy mode resonance (LMR)-based sensors have been proven as one of the exponentially growing resear...
The use of plasmonic sensor devices often requires replaceable parts and disposable chips for easy, ...
The use of plasmonic sensor devices often requires replaceable parts and disposable chips for easy, ...
An investigation of guided modes supported by an asymmetrical three layer metal-clad waveguide struc...