A method to measure the signal power evolution along phase-sensitive parametric amplifiers is proposed using Brillouin optical time-domain analysis. Different evolutions along the fiber are reported by varying input wave phases, including amplification and de-amplification
Fiber Optical Parametric Amplifiers (FOPAs) are based on a highly efficient Four-wave Mixing process...
Phase sensitive amplification (PSA) is a remarkably powerful tool if implemented correctly - it allo...
Over the past few years fibre optical parametric amplifiers (FOPA) have shown potential for many pra...
Abstract: A method to measure the signal power evolution along phase-sensitive parametric amplifiers...
We propose and experimentally demonstrate a method based on Brillouin optical time-domain analysis t...
We carried out distributed measurements of the longitudinal gain of fiber-optical parametric amplifi...
We experimentally demonstrate a single-pumped, nondegenerate phase-sensitive parametric amplifier wi...
We measure the frequency-resolved noise figure of fiber optical parametric amplifiers both in phase-...
The topic of this thesis is fiber optical parametric ampliers (FOPA). A unique feature of such ampli...
International audienceWe experimentally investigate the evolution of the direct detection noise figu...
This thesis deals with experimental and theoretical aspects of the phase-sensitive fiber optic param...
We demonstrate the extension of the measurement range of Brillouin optical time-domain analysis (BOT...
Visualisation of complex nonlinear equation solutions is a useful analysis tool for various scientif...
We present the first demonstration of a phase-sensitive fiber optic parametric amplifier successfull...
A review of recent experimental progress on fiber-based phase sensitive parametric amplifiers is pro...
Fiber Optical Parametric Amplifiers (FOPAs) are based on a highly efficient Four-wave Mixing process...
Phase sensitive amplification (PSA) is a remarkably powerful tool if implemented correctly - it allo...
Over the past few years fibre optical parametric amplifiers (FOPA) have shown potential for many pra...
Abstract: A method to measure the signal power evolution along phase-sensitive parametric amplifiers...
We propose and experimentally demonstrate a method based on Brillouin optical time-domain analysis t...
We carried out distributed measurements of the longitudinal gain of fiber-optical parametric amplifi...
We experimentally demonstrate a single-pumped, nondegenerate phase-sensitive parametric amplifier wi...
We measure the frequency-resolved noise figure of fiber optical parametric amplifiers both in phase-...
The topic of this thesis is fiber optical parametric ampliers (FOPA). A unique feature of such ampli...
International audienceWe experimentally investigate the evolution of the direct detection noise figu...
This thesis deals with experimental and theoretical aspects of the phase-sensitive fiber optic param...
We demonstrate the extension of the measurement range of Brillouin optical time-domain analysis (BOT...
Visualisation of complex nonlinear equation solutions is a useful analysis tool for various scientif...
We present the first demonstration of a phase-sensitive fiber optic parametric amplifier successfull...
A review of recent experimental progress on fiber-based phase sensitive parametric amplifiers is pro...
Fiber Optical Parametric Amplifiers (FOPAs) are based on a highly efficient Four-wave Mixing process...
Phase sensitive amplification (PSA) is a remarkably powerful tool if implemented correctly - it allo...
Over the past few years fibre optical parametric amplifiers (FOPA) have shown potential for many pra...
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