Add to ORKGA statistical analysis of the differential group delay (DGD) in few-mode spun optical fibres is presented. In particular, it has been considered a sinusoidal spun fibre supporting the first 4 LP groups and perturbed by stress birefringence and core ellipticity. The numerical simulations, performed with the wave-plate model, show that spin may reduce modal dispersion (MD) but also changes its underling probability distribution
We consider the two Wai-Menyuk models of birefringence in periodically spun fibers, and we show that...
The polarization mode dispersion of spun fibers with randomly varying birefringence was investigated...
Abstract—Spun fibers are increasingly used in telecommunica-tion systems because their polarization-...
This thesis proposes a statistical analysis of the differential group delay in few-mode optical fibe...
The differential group delay of a spun fiber supporting the first 4 LP groups (for a total of 12 spa...
Spinning is one of the most effective and well-known ways to reduce polarization mode dispersion of ...
Abstract—Polarization-mode dispersion (PMD) is a serious im-pairment for high-bit-rate optical telec...
Polarization-mode dispersion (PMD) is a serious impairment for high-bit-rate optical telecommunicati...
It is widely accepted that spinning a fiber while it is drawn is one of the most effective way to re...
We discuss the polarization mode dispersion properties of spun, single-mode, randomly birefringent f...
We show that the differential group delay of randomly birefringent periodically spun fibers, depends...
Spinning a fiber is the most viable and used technique to reduce polarization mode dispersion (PMD)....
It is known that the differential group delay (DGD) due to polarization mode dispersion (PMD) can be...
Polarization mode dispersion causes significant impairment in high bit-rate optical telecommunicatio...
We numerically and experimentaly analyze spooled spun fibers showing that spin and bending birefring...
We consider the two Wai-Menyuk models of birefringence in periodically spun fibers, and we show that...
The polarization mode dispersion of spun fibers with randomly varying birefringence was investigated...
Abstract—Spun fibers are increasingly used in telecommunica-tion systems because their polarization-...
This thesis proposes a statistical analysis of the differential group delay in few-mode optical fibe...
The differential group delay of a spun fiber supporting the first 4 LP groups (for a total of 12 spa...
Spinning is one of the most effective and well-known ways to reduce polarization mode dispersion of ...
Abstract—Polarization-mode dispersion (PMD) is a serious im-pairment for high-bit-rate optical telec...
Polarization-mode dispersion (PMD) is a serious impairment for high-bit-rate optical telecommunicati...
It is widely accepted that spinning a fiber while it is drawn is one of the most effective way to re...
We discuss the polarization mode dispersion properties of spun, single-mode, randomly birefringent f...
We show that the differential group delay of randomly birefringent periodically spun fibers, depends...
Spinning a fiber is the most viable and used technique to reduce polarization mode dispersion (PMD)....
It is known that the differential group delay (DGD) due to polarization mode dispersion (PMD) can be...
Polarization mode dispersion causes significant impairment in high bit-rate optical telecommunicatio...
We numerically and experimentaly analyze spooled spun fibers showing that spin and bending birefring...
We consider the two Wai-Menyuk models of birefringence in periodically spun fibers, and we show that...
The polarization mode dispersion of spun fibers with randomly varying birefringence was investigated...
Abstract—Spun fibers are increasingly used in telecommunica-tion systems because their polarization-...