Competition between Raman and Kerr effects in microresonator comb generation

Competition between Raman and Kerr effects in microresonator comb generation

We investigate the effects of Raman and Kerr gain in crystalline microresonators and determine the conditions required to generate mode-locked frequency combs. We show theoretically that a strong, narrowband Raman gain determines a maximum microresonator size allowable to achieve comb formation. We...

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Veröffentlicht in:Optics letters 2017-07, Vol.42 (14), p.2786-2789
Hauptverfasser: Okawachi, Yoshitomo, Yu, Mengjie, Venkataraman, Vivek, Latawiec, Pawel M, Griffith, Austin G, Lipson, Michal, Lončar, Marko, Gaeta, Alexander L
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container_end_page 2789
container_issue 14
container_start_page 2786
container_title Optics letters
container_volume 42
creator Okawachi, Yoshitomo
Yu, Mengjie
Venkataraman, Vivek
Latawiec, Pawel M
Griffith, Austin G
Lipson, Michal
Lončar, Marko
Gaeta, Alexander L
description We investigate the effects of Raman and Kerr gain in crystalline microresonators and determine the conditions required to generate mode-locked frequency combs. We show theoretically that a strong, narrowband Raman gain determines a maximum microresonator size allowable to achieve comb formation. We verify this condition experimentally in diamond and silicon microresonators and show that there exists a competition between Raman and Kerr effects that leads to the existence of two different comb states.
doi_str_mv 10.1364/ol.42.002786
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title Competition between Raman and Kerr effects in microresonator comb generation
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