English

A microresonator frequency comb optical clock

Optics 2013-09-16 v1

Abstract

Optical-frequency combs enable measurement precision at the 20th digit, and accuracy entirely commensurate with their reference oscillator. A new direction in experiments is the creation of ultracompact frequency combs by way of nonlinear parametric optics in microresonators. We refer to these as microcombs, and here we report a silicon-chip-based microcomb optical clock that phase-coherently converts an optical-frequency reference to a microwave signal. A low-noise comb spectrum with 25 THz span is generated with a 2 mm diameter silica disk and broadening in nonlinear fiber. This spectrum is stabilized to rubidium frequency references separated by 3.5 THz by controlling two teeth 108 modes apart. The optical clocks output is the electronically countable 33 GHz microcomb line spacing, which features an absolute stability better than the rubidium transitions by the expected factor of 108. Our work demonstrates the comprehensive set of tools needed for interfacing microcombs to state-of-the-art optical clocks.

Keywords

Cite

@article{arxiv.1309.3525,
  title  = {A microresonator frequency comb optical clock},
  author = {Scott B. Papp and Katja Beha and Pascal DelHaye and Franklyn Quinlan and Hansuek Lee and Kerry J. Vahala and Scott A. Diddams},
  journal= {arXiv preprint arXiv:1309.3525},
  year   = {2013}
}

Comments

10 pages, 4 figures

R2 v1 2026-06-22T01:26:43.839Z