Publications where PyCORe was used#
K Komagata, A Tusnin, J Riemensberger, M Churaev, H Guo, A Tikan, TJ Kippenberg, “Dissipative Kerr solitons in a photonic dimer on both sides of exceptional point,” Communications Physics 4 (2021)
Brief summary
We extensively used PyCORe to explore nonlinear dynamics in a system of two coupled resonators on both sides of exceptional point. We investigated different regimes, such as perfect soliton crystals, bright-dark soliton pairs, soliton hopping, etc.
A Lukashchuk, J Riemensberger, A Tusnin, J Liu, TJ Kippenberg, “Chaotic micro-comb based parallel ranging,” arXiv:2112.10241 (2021)
Brief summary
In this paper, where chaotic states of a microresonator were first used for laser ranging, we used PyCORe to verify experimental results and explore the preferable operation regime for such chaotic lidar
A Tikan, A Tusnin, J Riemensberger, M Churaev, X Ji, K Komagata, RN Wang, J Liu, TJ Kippenberg, “Protected generation of dissipative Kerr solitons in supermodes of coupled optical microresonators,” Science Advances 8 (2022)
Brief summary
Alongside with the first experimental observation of a stable dissipative Kerr soliton in a system of four coupled resonators, PyCORe was used to verify the experiment.
A Tusnin, A Tikan, TJ Kippenberg, “Nonlinear states and dynamics in a synthetic frequency dimension,” Physical Review A 102 (2020)
Brief summary
In this paper, with PyCORe we theoretically investigated nonlinear dynamics in a resoantor with a synthetic frequency dimension. It is important to note, that recenlty the predicted states were observed experimentally (see N. Englebert et al., “Bloch oscillations of coherently driven dissipative solitons in a synthetic dimension,” Nat. Phys. (2023) )
A Tusnin, A Tikan, TJ Kippenberg, “Dissipative Kerr solitons at the edge state of the Su-Schrieffer-Heeger model,” Journal of Physics: Conference Series 2015 (2021)
Brief summary
Here we used PyCORe for first investigation of edge state dissipative Kerr soliton in a photonic Su-Schrieffer-Heeger model
M Churaev, RN Wang, V Snigirev, A Riedhauser, T Blésin, C Möhl, MA Anderson, A Siddharth, Y Popoff, D Caimi, S Hönl, J Riemensberger, J Liu, P Seidler, TJ Kippenberg, “A heterogeneously integrated lithium niobate-on-silicon nitride photonic platform,” arXiv:2112.02018 (2022)
Brief summary
In this paper, the authors used PyCORe to verify the experimental observation of the resonant electro-optical frequency comb