English

On-chip polarization rotator for type I second harmonic generation

Optics 2019-08-01 v1 Applied Physics

Abstract

We demonstrate a polarization rotator integrated at the output of a GaAs waveguide producing type I second harmonic generation (SHG). Form-birefringent phase matching between the pump fundamental transverse electric (TE) mode near 2.0 μ\mum wavelength and the signal fundamental transverse magnetic (TM) mode efficiently generates light at 1.0 μ\mum wavelength. A SiN waveguide layer is integrated with the SHG device to form a multi-functional photonic integrated circuit. The polarization rotator couples light between the two layers and rotates the polarization from TM to TE or from TE to TM. With a TE-polarized 2.0 μ\mum pump, type I SHG is demonstrated with the signal rotated to TE polarization. Passive transmission near 1.0 μ\mum wavelength shows ~80 % polarization rotation across a broad bandwidth of ~100 nm. By rotating the signal polarization to match that of the pump, this SHG device demonstrates a critical component of an integrated self-referenced octave-spanning frequency comb. This device is expected to provide crucial functionality as part of a fully integrated optical frequency synthesizer with resolution of less than one part in 1014^{14}.

Keywords

Cite

@article{arxiv.1907.13626,
  title  = {On-chip polarization rotator for type I second harmonic generation},
  author = {Eric J. Stanton and Lin Chang and Weiqiang Xie and Aditya Malik and Jon Peters and Jeff Chiles and Nima Nader and Gabriele Navickaite and Davide Sacchetto and Michael Zervas and Kartik Srinivasan and John E. Bowers and Scott B. Papp and Sae Woo Nam and Richard P. Mirin},
  journal= {arXiv preprint arXiv:1907.13626},
  year   = {2019}
}

Comments

7 pages, 7 figures

R2 v1 2026-06-23T10:36:27.658Z