Variable electro-optic shearing interferometry for ultrafast single-photon-level pulse characterization
Abstract
Despite the multitude of available methods, the characterisation of ultrafast pulses remains a challenging endeavour, especially at the single-photon level. We introduce a pulse characterisation scheme that maps the magnitude of its short-time Fourier transform. Contrary to many well-known solutions it does not require nonlinear effects and is therefore suitable for single-photon-level measurements. Our method is based on introducing a series of controlled time and frequency shifts, where the latter is performed via an electro-optic modulator allowing a fully-electronic experimental control. We characterized the full spectral and temporal width of a classical and single-photon-level pulse and successfully reconstructed their spectral phase and amplitude. The method can be extended by implementing a phase-sensitive measurement and is naturally well-suited to partially-incoherent light.
Cite
@article{arxiv.2207.14049,
title = {Variable electro-optic shearing interferometry for ultrafast single-photon-level pulse characterization},
author = {Stanisław Kurzyna and Marcin Jastrzębski and Nicolas Fabre and Wojciech Wasilewski and Michał Lipka and Michał Parniak},
journal= {arXiv preprint arXiv:2207.14049},
year = {2024}
}
Comments
14 pages, 8 figures