[EN]In most applications of ultrashort pulse lasers, temporal compressors are used to achieve a desired pulse duration in a target or sample, and precise temporal characterization is important. The dispersionscan (d-scan) pulse characterization technique usually involves using glass wedges to impart variable, well-defined amounts of dispersion to the pulses, while measuring the spectrum of a nonlinear signal produced by those pulses. This works very well for broadband few-cycle pulses, but longer, narrower bandwidth pulses are much more difficult to measure this way. Here we demonstrate the concept of self-calibrating d-scan, which extends the applicability of the d-scan technique to pulses of arbitrary duration, enabling their complete mea...
A single-cycle laser pulse was generated using a two-stage compressor and characterized using a puls...
The precise temporal characterization of laser pulses is crucial for ultrashort applications in biol...
We present a simple and robust technique to retrieve the phase of ultrashort laser pulses, based on ...
Abstract In most applications of ultrashort pulse lasers, temporal compressors are used to achieve a...
[EN] We demonstrate a single-shot ultrafast diagnostic, based on the dispersion-scan (d-scan) techni...
We demonstrate a novel dispersion-scan (d-scan) scheme for single-shot temporal characterization of ...
The precise characterization of femtosecond laser pulses is as challenging as their generation and a...
Ultrashort laser pulses play an important role in many applications in science and technology, from ...
We present an implementation of dispersion-scan based on self-diffraction (SD d-scan) and apply it t...
The dispersion scan (d-scan) technique is extended to measurement of the timedependent polarization ...
Spatiotemporal compression of ultrashort pulses is one of the key issues of chirped pulse amplificat...
We develop a self-diffraction dispersion-scan method that simultaneously measures two distinct spati...
The dispersion scan (d-scan) technique has emerged as a simple-to-implement characterization method ...
In this work, we demonstrate a discrete dispersion scan scheme using a low number of flat windows to...
We present a new phase characterization technique for ultrashort laser pulses that employs self-phas...
A single-cycle laser pulse was generated using a two-stage compressor and characterized using a puls...
The precise temporal characterization of laser pulses is crucial for ultrashort applications in biol...
We present a simple and robust technique to retrieve the phase of ultrashort laser pulses, based on ...
Abstract In most applications of ultrashort pulse lasers, temporal compressors are used to achieve a...
[EN] We demonstrate a single-shot ultrafast diagnostic, based on the dispersion-scan (d-scan) techni...
We demonstrate a novel dispersion-scan (d-scan) scheme for single-shot temporal characterization of ...
The precise characterization of femtosecond laser pulses is as challenging as their generation and a...
Ultrashort laser pulses play an important role in many applications in science and technology, from ...
We present an implementation of dispersion-scan based on self-diffraction (SD d-scan) and apply it t...
The dispersion scan (d-scan) technique is extended to measurement of the timedependent polarization ...
Spatiotemporal compression of ultrashort pulses is one of the key issues of chirped pulse amplificat...
We develop a self-diffraction dispersion-scan method that simultaneously measures two distinct spati...
The dispersion scan (d-scan) technique has emerged as a simple-to-implement characterization method ...
In this work, we demonstrate a discrete dispersion scan scheme using a low number of flat windows to...
We present a new phase characterization technique for ultrashort laser pulses that employs self-phas...
A single-cycle laser pulse was generated using a two-stage compressor and characterized using a puls...
The precise temporal characterization of laser pulses is crucial for ultrashort applications in biol...
We present a simple and robust technique to retrieve the phase of ultrashort laser pulses, based on ...