The list of new publications on Kerr frequency combs is as usual below. It looks like graphene is even useful in this domain when deposited onto the microresonator. Two publications feature this “wonder material”.
- Yao, B. et al. Gate-tunable frequency combs in graphene–nitride microresonators. Nature (2018). doi:10.1038/s41586-018-0216-x
- Barturen, M., Abadía, N., Milano, J., Caso, P. A. C. & Plant, D. V. Manipulation of extinction features in frequency combs through the usage of graphene. Opt. Express, OE 26, 15490–15502 (2018).
- Jang, J. K. et al. Synchronization of coupled optical microresonators. arXiv:1806.02328 [physics] (2018).
- Yu, M. et al. Gas-phase microresonator-based comb spectroscopy without an external pump laser. arXiv:1806.01348 [physics] (2018).
And the [download id=”806″] of the references above. Below two more publications on frequency combs generated via the quadratic nonlinearity and soliton dynamics in fibers.
- Ikuta, R., Asano, M., Tani, R., Yamamoto, T. & Imoto, N. Frequency comb generation in a quadratic nonlinear waveguide resonator. Opt. Express, OE 26, 15551–15558 (2018).
- Zhong, X., Chen, L., Cheng, K., Yao, N. & Sheng, J. Generation of single or double parallel breathing soliton pairs, bound breathing solitons, moving breathing solitons, and diverse composite breathing solitons in optical fibers. Opt. Express, OE 26, 15683–15692 (2018).
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