Photonic molecule state transition by collision

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Original languageEnglish
Pages (from-to)3749-3752
Number of pages4
JournalOptics letters
Volume48
Issue number14
Early online date7 Jul 2023
Publication statusPublished - 15 Jul 2023

Abstract

We investigate the impact of collisions with two-frequency photonic molecules aiming to observe internal dynamic behavior and challenge their strong robustness. Versatile interaction scenarios show intriguing state changes expressed through modifications of the resulting state such as temporal compression and unknown collision-induced spectral tunneling. These processes show potential for efficient coherent supercontinuum generation and all-optical manipulation.

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Photonic molecule state transition by collision. / Willms, Stephanie; Melchert, Oliver; Bose, Surajit et al.
In: Optics letters, Vol. 48, No. 14, 15.07.2023, p. 3749-3752.

Research output: Contribution to journalArticleResearchpeer review

Willms, S, Melchert, O, Bose, S, Babushkin, I, Morgner, U & Demircan, A 2023, 'Photonic molecule state transition by collision', Optics letters, vol. 48, no. 14, pp. 3749-3752. https://doi.org/10.1364/OL.495682
Willms, S., Melchert, O., Bose, S., Babushkin, I., Morgner, U., & Demircan, A. (2023). Photonic molecule state transition by collision. Optics letters, 48(14), 3749-3752. https://doi.org/10.1364/OL.495682
Willms S, Melchert O, Bose S, Babushkin I, Morgner U, Demircan A. Photonic molecule state transition by collision. Optics letters. 2023 Jul 15;48(14):3749-3752. Epub 2023 Jul 7. doi: 10.1364/OL.495682
Willms, Stephanie ; Melchert, Oliver ; Bose, Surajit et al. / Photonic molecule state transition by collision. In: Optics letters. 2023 ; Vol. 48, No. 14. pp. 3749-3752.
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