Add to ORKGIn this research work an analysis has been carried out on symmetric dual core hexagonal PCF-based polarization beam splitter by using finite element method (FEM). The splitter designs are carried out with hexagonal PCFs with simple symmetric design by varying only air holes diameter. The results of numerical calculation show that coupling lengths are higher for polarization splitters with larger air hole diameters and with the increase of operating wavelength coupling length decreases. Furthermore it is possible to obtain an 8.4 mm-long polarization beam splitter with high extinction ratio (250dB). This study will be very helpful to design and manufacture simple PCF based splitters with better performance. Keywords: photonic crystal fiber (...
A novel concept of polarization beam splitting with high polarization extinction ratio is proposed b...
We present the design and the simulation of an ultracompact high efficiency polarization beam splitt...
Author name used in this publication: M. Suleyman Demokan2005-2006 > Academic research: refereed > P...
In this research work an analysis has been carried out on symmetric dual core hexagonal PCF-based po...
Modern-day optical systems are evolving towards miniaturization and integration, leading to higher p...
A circular ultra-short As2S3 filled double-core photonic crystal fiber polarization beam splitter is...
A single-polarization single-mode (SPSM) photonic crystal fiber (PCF) based on double-hole unit core...
In this work, a polarization beam splitter (PBS) based on surface plasmonic resonance is proposed an...
A three-core polarization splitter based on a square-lattice photonic-crystal fiber is presented. Th...
In this paper, a novel silicon dual-core photonic crystal fiber (Si-DC-PCF) polarization beam splitt...
Polarization beam splitters based on three-core photonic crystal fibers are presented. The two diffe...
Abstract — The coupling property in photonic crystal fiber (PCF) coupler with twin-elliptical-core ...
We propose a novel L-shaped crosstalk-free polarization splitter (PS) based on square lattice single...
We proposed a novel polarization splitter based on single-polarized elliptical-hole core circular-ho...
In this paper, a simple structure dual-core photonic crystal fiber (SS-DC-PCF) polarization beam spl...
A novel concept of polarization beam splitting with high polarization extinction ratio is proposed b...
We present the design and the simulation of an ultracompact high efficiency polarization beam splitt...
Author name used in this publication: M. Suleyman Demokan2005-2006 > Academic research: refereed > P...
In this research work an analysis has been carried out on symmetric dual core hexagonal PCF-based po...
Modern-day optical systems are evolving towards miniaturization and integration, leading to higher p...
A circular ultra-short As2S3 filled double-core photonic crystal fiber polarization beam splitter is...
A single-polarization single-mode (SPSM) photonic crystal fiber (PCF) based on double-hole unit core...
In this work, a polarization beam splitter (PBS) based on surface plasmonic resonance is proposed an...
A three-core polarization splitter based on a square-lattice photonic-crystal fiber is presented. Th...
In this paper, a novel silicon dual-core photonic crystal fiber (Si-DC-PCF) polarization beam splitt...
Polarization beam splitters based on three-core photonic crystal fibers are presented. The two diffe...
Abstract — The coupling property in photonic crystal fiber (PCF) coupler with twin-elliptical-core ...
We propose a novel L-shaped crosstalk-free polarization splitter (PS) based on square lattice single...
We proposed a novel polarization splitter based on single-polarized elliptical-hole core circular-ho...
In this paper, a simple structure dual-core photonic crystal fiber (SS-DC-PCF) polarization beam spl...
A novel concept of polarization beam splitting with high polarization extinction ratio is proposed b...
We present the design and the simulation of an ultracompact high efficiency polarization beam splitt...
Author name used in this publication: M. Suleyman Demokan2005-2006 > Academic research: refereed > P...