Add to ORKG836-841In this paper, an extremely low loss hybrid hexagonal porous core and octagonally structured circular cladding photonic crystal fiber (PCF) for low loss terahertz (THz) wave propagation has been designed and proposed. We have analyzed ultralow effective material loss (EML), high core power fraction and ultra-flattened dispersion in our proposed design. To investigate the transmission characteristics, perfectly matched layer (PML) is used in the outer boundary of the PCF. At an operating frequency of 1 THz, this design exhibits a low effective material loss of 0.045 cm-1 at a high core power fraction of 58.2% with 88% porosity. The proposed PCF shows dispersion variation of 0.225 ps/THz/cm. Also, this designed PCF can operate in sing...
A novel fiber design based on hexagonal shaped holes incorporated within the core of a Kagome lattic...
A novel fiber design based on hexagonal shaped holes incorporated within the core of a Kagome lattic...
A novel fiber design based on hexagonal shaped holes incorporated within the core of a Kagome lattic...
In this paper, an extremely low loss hybrid hexagonal porous core and octagonally structured circul...
Research Article published by Optical Society of America Vol.56,(No 4)In this paper, we present the ...
In this letter, authors have proposed a circular structured photonic crystal fiber for low-loss tera...
In this paper, a hybrid-core circular cladded photonic crystal fiber is designed and analyzed for ap...
Research Article published by ElsevierIn this paper, we present a porous-core circular photonic crys...
A novel, rectangle-based, porous-core photonic crystal fiber (PCF) has been modeled for the efficien...
A thorough modal characterization, centred on the full vectorial finite element method (FEM) has bee...
In the article, a very low loss terahertz (THz) photonic crystal fiber (PCF) has been proposed and i...
Available online 12 April 2018We present a Zeonex based highly birefringent and dispersion flattened...
A novel waveguide consisting of oligo-porous core photonic crystal fiber (PCF) with a kagome lattice...
A rigorous modal solution approach, based on the numerically efficient finite-element method (FEM), ...
A novel fiber design based on hexagonal shaped holes incorporated within the core of a Kagome lattic...
A novel fiber design based on hexagonal shaped holes incorporated within the core of a Kagome lattic...
A novel fiber design based on hexagonal shaped holes incorporated within the core of a Kagome lattic...
A novel fiber design based on hexagonal shaped holes incorporated within the core of a Kagome lattic...
In this paper, an extremely low loss hybrid hexagonal porous core and octagonally structured circul...
Research Article published by Optical Society of America Vol.56,(No 4)In this paper, we present the ...
In this letter, authors have proposed a circular structured photonic crystal fiber for low-loss tera...
In this paper, a hybrid-core circular cladded photonic crystal fiber is designed and analyzed for ap...
Research Article published by ElsevierIn this paper, we present a porous-core circular photonic crys...
A novel, rectangle-based, porous-core photonic crystal fiber (PCF) has been modeled for the efficien...
A thorough modal characterization, centred on the full vectorial finite element method (FEM) has bee...
In the article, a very low loss terahertz (THz) photonic crystal fiber (PCF) has been proposed and i...
Available online 12 April 2018We present a Zeonex based highly birefringent and dispersion flattened...
A novel waveguide consisting of oligo-porous core photonic crystal fiber (PCF) with a kagome lattice...
A rigorous modal solution approach, based on the numerically efficient finite-element method (FEM), ...
A novel fiber design based on hexagonal shaped holes incorporated within the core of a Kagome lattic...
A novel fiber design based on hexagonal shaped holes incorporated within the core of a Kagome lattic...
A novel fiber design based on hexagonal shaped holes incorporated within the core of a Kagome lattic...
A novel fiber design based on hexagonal shaped holes incorporated within the core of a Kagome lattic...