Measurement of complex supercontinuum light pulses using time domain ptychography

TL;DR

This paper demonstrates that time-domain ptychography can effectively characterize complex supercontinuum light pulses with high temporal resolution, minimal data, and fast computation, outperforming existing methods.

Contribution

The work introduces the application of time-domain ptychography for ultrafast pulse measurement, achieving high resolution with simplified data acquisition and processing.

Findings

Achieved 5.7 fs temporal resolution in supercontinuum pulse measurement.

Successfully measured 3.5 ps supercontinuum pulse with high dynamic range.

Demonstrated robustness and efficiency of the ptychography technique.

Abstract

We demonstrate that time-domain ptychography, a recently introduced ultrafast pulse reconstruction modality, has properties ideally suited for the temporal characterization of complex light pulses with large time-bandwidth products as it achieves temporal resolution on the scale of a single optical cycle using long probe pulses, low sampling rates, and an extremely fast and robust algorithm. In comparison to existing techniques, ptychography minimizes the data to be recorded and processed, and drastically reduces the computational time of the reconstruction. Experimentally we measure the temporal waveform of an octave-spanning, 3.5~ps long supercontinuum pulse generated in photonic crystal fiber, resolving features as short as 5.7~fs with sub-fs resolution and 30~dB dynamic range using 100~fs probe pulses and similarly large delay steps.