A novel graded index microstructured polymer THz fiber, whose graded index profile is achieved by a hexagonal subwavelength air-hole array with graded diameters, is studied. The simulation results show that this geometry design can reduce the dispersion and the confinement loss significantly. © 2014 IEEE
We demonstrate that porous fibers in addition to low loss and high confinement, have near zero dispe...
The electromagnetic properties of structures with spatially periodic distributed graded refractive i...
Available online 12 April 2018We present a Zeonex based highly birefringent and dispersion flattened...
ABSTRACT: We outline the most recent technological advancements in the design, fabrication and chara...
A graded index porous optical fiber incorporating an air-hole array featuring variable air-hole diam...
<p> Efficient transmission of terahertz (THz) wave is very important in the development of THz tech...
We report on a new class of polymer photonic crystal fibers for low-loss guidance of THz radiation. ...
Abstract: The experimental results confirm the low dispersion characteristics of porous fibers compa...
Terahertz (THz) technology has witnessed a significant growth in a wide range of applications, inclu...
We use numerical simulations to design a hollowcore microstructured polymer optical fiber (HC-mPOF) ...
A hollow-core microstructured polymer optical fiber was analyzed in the terahertz (THz) region. Spec...
This Thesis reports the development of fibres to guide terahertz (THz) or T-ray radiation. It demons...
Propagation loss and dispersion characteristics of a hollow core microstructured fiber in the THz re...
The paper establishes a late-model of microarray-core based polymer optical fiber with flattened dis...
Here we demonstrate the experimental results on in-house fabricated polymer THz porous fiber with su...
We demonstrate that porous fibers in addition to low loss and high confinement, have near zero dispe...
The electromagnetic properties of structures with spatially periodic distributed graded refractive i...
Available online 12 April 2018We present a Zeonex based highly birefringent and dispersion flattened...
ABSTRACT: We outline the most recent technological advancements in the design, fabrication and chara...
A graded index porous optical fiber incorporating an air-hole array featuring variable air-hole diam...
<p> Efficient transmission of terahertz (THz) wave is very important in the development of THz tech...
We report on a new class of polymer photonic crystal fibers for low-loss guidance of THz radiation. ...
Abstract: The experimental results confirm the low dispersion characteristics of porous fibers compa...
Terahertz (THz) technology has witnessed a significant growth in a wide range of applications, inclu...
We use numerical simulations to design a hollowcore microstructured polymer optical fiber (HC-mPOF) ...
A hollow-core microstructured polymer optical fiber was analyzed in the terahertz (THz) region. Spec...
This Thesis reports the development of fibres to guide terahertz (THz) or T-ray radiation. It demons...
Propagation loss and dispersion characteristics of a hollow core microstructured fiber in the THz re...
The paper establishes a late-model of microarray-core based polymer optical fiber with flattened dis...
Here we demonstrate the experimental results on in-house fabricated polymer THz porous fiber with su...
We demonstrate that porous fibers in addition to low loss and high confinement, have near zero dispe...
The electromagnetic properties of structures with spatially periodic distributed graded refractive i...
Available online 12 April 2018We present a Zeonex based highly birefringent and dispersion flattened...
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