Exceptional point proximity-driven mode-locking in coupled microresonators

Riku Imamura; Shun Fujii; Ayata Nakashima; Takasumi Tanabe

doi:10.1364/OE.524556

Exceptional point proximity-driven mode-locking in coupled microresonators

Riku Imamura
, Shun Fujii
, Ayata Nakashima
, Takasumi Tanabe

Research output: Contribution to journal › Article › peer-review

4 Citations (Scopus)

Abstract

We show theoretically and numerically that mode-locking is feasible with a coupled-cavity system with gain and loss, notably, without any natural saturable absorber. We highlight that in the vicinity of the exceptional point, system Q exhibits substantial modulation even with minor refractive index changes and a minimal Kerr effect contribution. Leveraging this unique behavior, we propose an unprecedented approach wherein the lossy auxiliary cavity functions as an efficient artificial saturable absorber, thus facilitating mode-locking. This approach is not only novel, but also presents considerable advantages over conventional systems where both gain and saturable absorption are contained within a single microcavity. These benefits include reduced operational power and ease of post-adjustment, achievable through the manipulation of the coupling strength between the two microcavities.

Original language	English
Pages (from-to)	22280-22290
Number of pages	11
Journal	Optics Express
Volume	32
Issue number	13
DOIs	https://doi.org/10.1364/OE.524556
Publication status	Published - 2024 Jun 17

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics

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abstract = "We show theoretically and numerically that mode-locking is feasible with a coupled-cavity system with gain and loss, notably, without any natural saturable absorber. We highlight that in the vicinity of the exceptional point, system Q exhibits substantial modulation even with minor refractive index changes and a minimal Kerr effect contribution. Leveraging this unique behavior, we propose an unprecedented approach wherein the lossy auxiliary cavity functions as an efficient artificial saturable absorber, thus facilitating mode-locking. This approach is not only novel, but also presents considerable advantages over conventional systems where both gain and saturable absorption are contained within a single microcavity. These benefits include reduced operational power and ease of post-adjustment, achievable through the manipulation of the coupling strength between the two microcavities.",

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T1 - Exceptional point proximity-driven mode-locking in coupled microresonators

AU - Imamura, Riku

AU - Fujii, Shun

AU - Nakashima, Ayata

AU - Tanabe, Takasumi

PY - 2024/6/17

Y1 - 2024/6/17

N2 - We show theoretically and numerically that mode-locking is feasible with a coupled-cavity system with gain and loss, notably, without any natural saturable absorber. We highlight that in the vicinity of the exceptional point, system Q exhibits substantial modulation even with minor refractive index changes and a minimal Kerr effect contribution. Leveraging this unique behavior, we propose an unprecedented approach wherein the lossy auxiliary cavity functions as an efficient artificial saturable absorber, thus facilitating mode-locking. This approach is not only novel, but also presents considerable advantages over conventional systems where both gain and saturable absorption are contained within a single microcavity. These benefits include reduced operational power and ease of post-adjustment, achievable through the manipulation of the coupling strength between the two microcavities.

AB - We show theoretically and numerically that mode-locking is feasible with a coupled-cavity system with gain and loss, notably, without any natural saturable absorber. We highlight that in the vicinity of the exceptional point, system Q exhibits substantial modulation even with minor refractive index changes and a minimal Kerr effect contribution. Leveraging this unique behavior, we propose an unprecedented approach wherein the lossy auxiliary cavity functions as an efficient artificial saturable absorber, thus facilitating mode-locking. This approach is not only novel, but also presents considerable advantages over conventional systems where both gain and saturable absorption are contained within a single microcavity. These benefits include reduced operational power and ease of post-adjustment, achievable through the manipulation of the coupling strength between the two microcavities.

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JO - Optics Express

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Exceptional point proximity-driven mode-locking in coupled microresonators

Abstract

ASJC Scopus subject areas

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