English

On-chip self-referencing using integrated lithium niobate waveguides

Optics 2020-03-27 v1 Applied Physics

Abstract

The measurement and stabilization of the carrier-envelope offset frequency fCEOf_{\textrm{CEO}} via self-referencing is paramount for optical frequency comb generation which has revolutionized precision frequency metrology, spectroscopy, and optical clocks. Over the past decade, the development of chip-scale platforms has enabled compact integrated waveguides for supercontinuum generation. However, there is a critical need for an on-chip self-referencing system that is adaptive to different pump wavelengths, requires low pulse energy, and does not require complicated processing. Here, we demonstrate efficient carrier-envelope offset frequency fCEOf_{\textrm{CEO}} stabilization of a modelocked laser with only 107 pJ of pulse energy via self-referencing in an integrated lithium niobate waveguide. We realize an ff-2f2f interferometer through second-harmonic generation and subsequent supercontinuum generation in a single dispersion-engineered waveguide with a stabilization performance equivalent to a conventional off-chip module. The fCEOf_{\textrm{CEO}} beatnote is measured over a pump wavelength range of 70 nm. We theoretically investigate our system using a single nonlinear envelope equation with contributions from both second- and third-order nonlinearities. Our modeling reveals rich ultrabroadband nonlinear dynamics and confirms that the initial second harmonic generation followed by supercontinuum generation with the remaining pump is responsible for the generation of a strong fCEOf_{\textrm{CEO}} signal as compared to a traditional ff-2f2f interferometer. Our technology provides a highly-simplified system that is robust, low cost, and adaptable for precision metrology for use outside a research laboratory.

Keywords

Cite

@article{arxiv.2003.11599,
  title  = {On-chip self-referencing using integrated lithium niobate waveguides},
  author = {Yoshitomo Okawachi and Mengjie Yu and Boris Desiatov and Bok Young Kim and Tobias Hansson and Marko Lončar and Alexander L. Gaeta},
  journal= {arXiv preprint arXiv:2003.11599},
  year   = {2020}
}
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