Add to ORKGWe experimentally demonstrate, for the first time, reducing group delay spread in gradedindex few-mode fibers with many LP modes using simple, uniform long-period gratings which have only one grating period
We report the optimization of a few-mode fiber, adapted to multiple-input multiple-output mode divis...
Present work deals with the analytical study of spectral and dispersion properties of long period fi...
Traditionally, long period fiber gratings (LPG) are made in passive optical fibers that have negligi...
Despite the promise of an orders-of-magnitude increase in transmission capacity, practical implement...
A theoretical and experimental analysis of group velocity reduction in periodic super-structured Bra...
A theoretical and experimental analysis of group velocity reduction in periodic super-structured Bra...
We propose and experimentally demonstrate distributed microwave photonics signal processing over a f...
We propose a new architecture for using long-period fiber gratings (LPGs) to induce strong mode mixi...
We consider mode coupling in multimode optical fibers using either two Bragg gratings or a Bragg gra...
A theoretical and experimental analysis of group velocity reduction in periodic superstructure Bragg...
We report, for the first time to our knowledge, distributed radiofrequency signal processing built u...
[EN] We propose and experimentally demonstrate distributed radiofrequency signal on a few-mode-fibre...
Advantages for sensor applications of long-period gratings (LPGs) in special optical fibers are repo...
We study the propagation of Gaussian-shaped pulses in grating-compensated dispersion-managed systems...
The reduction in the group velocity of a light pulse, or ‘slow light’, has many practical applicatio...
We report the optimization of a few-mode fiber, adapted to multiple-input multiple-output mode divis...
Present work deals with the analytical study of spectral and dispersion properties of long period fi...
Traditionally, long period fiber gratings (LPG) are made in passive optical fibers that have negligi...
Despite the promise of an orders-of-magnitude increase in transmission capacity, practical implement...
A theoretical and experimental analysis of group velocity reduction in periodic super-structured Bra...
A theoretical and experimental analysis of group velocity reduction in periodic super-structured Bra...
We propose and experimentally demonstrate distributed microwave photonics signal processing over a f...
We propose a new architecture for using long-period fiber gratings (LPGs) to induce strong mode mixi...
We consider mode coupling in multimode optical fibers using either two Bragg gratings or a Bragg gra...
A theoretical and experimental analysis of group velocity reduction in periodic superstructure Bragg...
We report, for the first time to our knowledge, distributed radiofrequency signal processing built u...
[EN] We propose and experimentally demonstrate distributed radiofrequency signal on a few-mode-fibre...
Advantages for sensor applications of long-period gratings (LPGs) in special optical fibers are repo...
We study the propagation of Gaussian-shaped pulses in grating-compensated dispersion-managed systems...
The reduction in the group velocity of a light pulse, or ‘slow light’, has many practical applicatio...
We report the optimization of a few-mode fiber, adapted to multiple-input multiple-output mode divis...
Present work deals with the analytical study of spectral and dispersion properties of long period fi...
Traditionally, long period fiber gratings (LPG) are made in passive optical fibers that have negligi...