We propose two new techniques able to retrieve the phase profile of a given temporal optical pulse based on the use of in-fiber semi-differintegral operators, where by semi-differintegration we mean either a 0.5th-order differentiation or integration. In both cases, the signal's temporal phase can be obtained by simple dividing two temporal intensity profiles, namely the intensities of the input and output pulses of a spectrally shifted semi-differintegral operator. In both cases, we obtained simple analytical expressions for the phase profile. The techniques are self-referenced and well-suited for real-time applications. We numerically prove the viability of these proposals
An arbitrary optical waveform can be measured using the technique called the \u27petahertz optical o...
The retrieval of time-dependent intensity and phase of femtosecond laser pulses is a long standing p...
We introduce the technique of time-resolved optical gating (TROG) based on dispersive propagation (D...
International audienceWe propose and experimentally validate an all-fiber based approach to characte...
We propose a simple and fast procedure to retrieve the phase profile of arbitrary light pulses. It c...
Phase retrieval and local frequency estimation of a signal from intensity profiles are important pro...
We recently introduced a new technique, frequency-resolved optical gating (FROG), for directly deter...
In this work, the applicability of a recently proposed phase recovery technique is extended, by usin...
In this paper a novel technique for obtaining the amplitude and phase of optical pulses with time ex...
International audienceSelf-phase modulation (SPM), one of those very fascinating effects discovered ...
Phase retrieval finds applications in various optical imaging modalities such as X-ray crystallograp...
An arbitrary optical waveform can be measured using the technique called the 'petahertz optical...
Femtosecond pulses circulating in a synchronously driven fiber ring cavity have complex amplitude an...
We propose and demonstrate a phase retrieval method using a novel variant of the dispersion scan (‘d...
We experimentally demonstrate the possibility to retrieve the instantaneous frequency profile of a g...
An arbitrary optical waveform can be measured using the technique called the \u27petahertz optical o...
The retrieval of time-dependent intensity and phase of femtosecond laser pulses is a long standing p...
We introduce the technique of time-resolved optical gating (TROG) based on dispersive propagation (D...
International audienceWe propose and experimentally validate an all-fiber based approach to characte...
We propose a simple and fast procedure to retrieve the phase profile of arbitrary light pulses. It c...
Phase retrieval and local frequency estimation of a signal from intensity profiles are important pro...
We recently introduced a new technique, frequency-resolved optical gating (FROG), for directly deter...
In this work, the applicability of a recently proposed phase recovery technique is extended, by usin...
In this paper a novel technique for obtaining the amplitude and phase of optical pulses with time ex...
International audienceSelf-phase modulation (SPM), one of those very fascinating effects discovered ...
Phase retrieval finds applications in various optical imaging modalities such as X-ray crystallograp...
An arbitrary optical waveform can be measured using the technique called the 'petahertz optical...
Femtosecond pulses circulating in a synchronously driven fiber ring cavity have complex amplitude an...
We propose and demonstrate a phase retrieval method using a novel variant of the dispersion scan (‘d...
We experimentally demonstrate the possibility to retrieve the instantaneous frequency profile of a g...
An arbitrary optical waveform can be measured using the technique called the \u27petahertz optical o...
The retrieval of time-dependent intensity and phase of femtosecond laser pulses is a long standing p...
We introduce the technique of time-resolved optical gating (TROG) based on dispersive propagation (D...