Add to ORKGAbstract: We propose and demonstrate a novel scheme for obtaining quasiuniform rate polarization scrambling at up to 752 krad/s in fiber optic systems by using cascaded multiple fiber squeezers with each one placed in a certain orientation. Additionally, this polarization scrambler is compatible with both single-polarization and polarization-multiplexing systems. We also show that scrambled SOP with this scheme uniformly covers the whole Poincare Sphere and that the scrambling rates are mostly concentrated towards the high end of the rate distribution histogram. Such a scrambling scheme is advantageous for the deterministic characterization of performances for modern fiber optic transceivers, especially those deploying coherent detection te...
We report on a novel and efficient source of polarization squeezing that uses a single pass through ...
We analyze two all-optical fiber-based fast polarization scramblers. In the first, a signal beam non...
©2000 IEEE. Personal use of this material is permitted. However, permission to reprint/republish thi...
We report a simple and efficient all-optical polarization scrambler based on the nonlinear interacti...
The ability to randomly scramble the state-of-polarization (SOP) of a light beam is an important iss...
International audiencePolarization variations in optical fibers are complex and would severely affec...
International audienceWe report a simple and efficient all-optical polarization scrambler based on t...
We propose and analyze a novel all-optical fiber optic polarization scrambler, based on the transfer...
Demonstration of an all-fiber polarization scrambler based on the Faraday effect is carried out. The...
Transmission demand continues to grow and higher capacity optical communication systems are required...
Transmission demand continues to grow and higher capacity optical communication systems are required...
We propose a standardization procedure that provides a convenient, quantitative and reproducible lab...
Abstract—Our statistical study by the importance sampling method shows that a significant performanc...
We report on a source of polarization squeezing (5.1±0.3 dB) based on a single pass through an optic...
Our statistical study by the importance sampling method shows that a significant performance improve...
We report on a novel and efficient source of polarization squeezing that uses a single pass through ...
We analyze two all-optical fiber-based fast polarization scramblers. In the first, a signal beam non...
©2000 IEEE. Personal use of this material is permitted. However, permission to reprint/republish thi...
We report a simple and efficient all-optical polarization scrambler based on the nonlinear interacti...
The ability to randomly scramble the state-of-polarization (SOP) of a light beam is an important iss...
International audiencePolarization variations in optical fibers are complex and would severely affec...
International audienceWe report a simple and efficient all-optical polarization scrambler based on t...
We propose and analyze a novel all-optical fiber optic polarization scrambler, based on the transfer...
Demonstration of an all-fiber polarization scrambler based on the Faraday effect is carried out. The...
Transmission demand continues to grow and higher capacity optical communication systems are required...
Transmission demand continues to grow and higher capacity optical communication systems are required...
We propose a standardization procedure that provides a convenient, quantitative and reproducible lab...
Abstract—Our statistical study by the importance sampling method shows that a significant performanc...
We report on a source of polarization squeezing (5.1±0.3 dB) based on a single pass through an optic...
Our statistical study by the importance sampling method shows that a significant performance improve...
We report on a novel and efficient source of polarization squeezing that uses a single pass through ...
We analyze two all-optical fiber-based fast polarization scramblers. In the first, a signal beam non...
©2000 IEEE. Personal use of this material is permitted. However, permission to reprint/republish thi...