International audience<p>In high-speed optical networks, quantifying both the intensity and the frequency behaviors of optical signals has become a crucial task to evaluate transmission performance. In this letter, we report on a new technique to characterize optical signals. It is based on low-cost components and its operating mode is easy to provide accurate and fast measurements. The proposed technique is experimentally validated with signals whose characteristics are known. It is also tested with different optical transmitters.</p
A new device concept for measuring the time‐resolved frequency chirp in modulated laser diodes is pr...
Measurements of small-signal intensity modulation from direct-modulated distributed feedback (DFB) s...
none6siThe phenomenon of modal noise, which is typically undesired within fiber optic links, is expl...
A new method for determination of time-resolved frequency chirp in modulated light sources of optica...
We propose a simple technique to measure in the time domain the magnitude of frequency chirp of high...
In the paper, the simple method of laser chirp parameters estimation is presented. It is based on me...
A time resolved chirp measurement technique is introduced to measure optical carrier frequency fluct...
In the first part of the thesis we introduce a new method to characterize picosecond optical pulses ...
We demonstrate that the simple rate equations do not satisfactorily account for the chirp of DFB las...
International audienceWe report on a simple and fast method to estimate the fiber dispersion and las...
International audienceIn this paper, a technique based on the use of a Mach–Zehnder (MZ) interfero-m...
Abstract: A novel method to measure the complex optical spectrum of digitally modulated signals base...
International audienceWe propose and experimentally validate an all-fiber based approach to characte...
optical, fiber optics, photonic subsystems, photonics, lightwave components The optical pulse-distor...
Chromatic dispersion (CD) is due to the fact that light with different frequencies travel at differe...
A new device concept for measuring the time‐resolved frequency chirp in modulated laser diodes is pr...
Measurements of small-signal intensity modulation from direct-modulated distributed feedback (DFB) s...
none6siThe phenomenon of modal noise, which is typically undesired within fiber optic links, is expl...
A new method for determination of time-resolved frequency chirp in modulated light sources of optica...
We propose a simple technique to measure in the time domain the magnitude of frequency chirp of high...
In the paper, the simple method of laser chirp parameters estimation is presented. It is based on me...
A time resolved chirp measurement technique is introduced to measure optical carrier frequency fluct...
In the first part of the thesis we introduce a new method to characterize picosecond optical pulses ...
We demonstrate that the simple rate equations do not satisfactorily account for the chirp of DFB las...
International audienceWe report on a simple and fast method to estimate the fiber dispersion and las...
International audienceIn this paper, a technique based on the use of a Mach–Zehnder (MZ) interfero-m...
Abstract: A novel method to measure the complex optical spectrum of digitally modulated signals base...
International audienceWe propose and experimentally validate an all-fiber based approach to characte...
optical, fiber optics, photonic subsystems, photonics, lightwave components The optical pulse-distor...
Chromatic dispersion (CD) is due to the fact that light with different frequencies travel at differe...
A new device concept for measuring the time‐resolved frequency chirp in modulated laser diodes is pr...
Measurements of small-signal intensity modulation from direct-modulated distributed feedback (DFB) s...
none6siThe phenomenon of modal noise, which is typically undesired within fiber optic links, is expl...