Orthogonalization of a Microcomb Degrees of Freedom for On-chip Clock Architecture

Andrei Diakonov; Konstantin Khrizman; Eliran Zano; Liron Stern

doi:10.1364/CLEO_SI.2025.SS122_5

Orthogonalization of a Microcomb Degrees of Freedom for On-chip Clock Architecture

Andrei Diakonov^*
, Konstantin Khrizman
, Eliran Zano
, Liron Stern

^*Corresponding author for this work

The Institute of Applied Physics

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

We demonstrate a novel Kerr-microcomb stabilization architecture employing dual-pinning of any two comb lines, which is independent of pump stabilization. Combining active and passive optical locking techniques enables an efficient and robust optical division scheme.

Original language	English
Title of host publication	CLEO
Subtitle of host publication	Science and Innovations - Proceedings CLEO 2025
Publisher	Optical Society of America
ISBN (Electronic)	9781957171500
DOIs	https://doi.org/10.1364/CLEO_SI.2025.SS122_5
State	Published - 2025
Event	2025 CLEO: Science and Innovations, CLEO-SI 2025 - Long Beach, United States Duration: 4 May 2025 → 9 May 2025

Publication series

Name	CLEO: Science and Innovations - Proceedings CLEO 2025

Conference

Conference	2025 CLEO: Science and Innovations, CLEO-SI 2025
Country/Territory	United States
City	Long Beach
Period	4/05/25 → 9/05/25

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Publisher Copyright:
© Optica Publishing Group 2025 © 2024 The Author(s)

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10.1364/CLEO_SI.2025.SS122_5

Cite this

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title = "Orthogonalization of a Microcomb Degrees of Freedom for On-chip Clock Architecture",

abstract = "We demonstrate a novel Kerr-microcomb stabilization architecture employing dual-pinning of any two comb lines, which is independent of pump stabilization. Combining active and passive optical locking techniques enables an efficient and robust optical division scheme.",

author = "Andrei Diakonov and Konstantin Khrizman and Eliran Zano and Liron Stern",

note = "Publisher Copyright: {\textcopyright} Optica Publishing Group 2025 {\textcopyright} 2024 The Author(s); 2025 CLEO: Science and Innovations, CLEO-SI 2025 ; Conference date: 04-05-2025 Through 09-05-2025",

year = "2025",

doi = "10.1364/CLEO\_SI.2025.SS122\_5",

language = "אנגלית",

series = "CLEO: Science and Innovations - Proceedings CLEO 2025",

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Diakonov, A, Khrizman, K, Zano, E & Stern, L 2025, Orthogonalization of a Microcomb Degrees of Freedom for On-chip Clock Architecture. in CLEO: Science and Innovations - Proceedings CLEO 2025. CLEO: Science and Innovations - Proceedings CLEO 2025, Optical Society of America, 2025 CLEO: Science and Innovations, CLEO-SI 2025, Long Beach, United States, 4/05/25. https://doi.org/10.1364/CLEO_SI.2025.SS122_5

Orthogonalization of a Microcomb Degrees of Freedom for On-chip Clock Architecture. / Diakonov, Andrei; Khrizman, Konstantin; Zano, Eliran et al.
CLEO: Science and Innovations - Proceedings CLEO 2025. Optical Society of America, 2025. (CLEO: Science and Innovations - Proceedings CLEO 2025).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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T1 - Orthogonalization of a Microcomb Degrees of Freedom for On-chip Clock Architecture

AU - Diakonov, Andrei

AU - Khrizman, Konstantin

AU - Zano, Eliran

AU - Stern, Liron

PY - 2025

Y1 - 2025

N2 - We demonstrate a novel Kerr-microcomb stabilization architecture employing dual-pinning of any two comb lines, which is independent of pump stabilization. Combining active and passive optical locking techniques enables an efficient and robust optical division scheme.

AB - We demonstrate a novel Kerr-microcomb stabilization architecture employing dual-pinning of any two comb lines, which is independent of pump stabilization. Combining active and passive optical locking techniques enables an efficient and robust optical division scheme.

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AN - SCOPUS:105033660918

T3 - CLEO: Science and Innovations - Proceedings CLEO 2025

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PB - Optical Society of America

T2 - 2025 CLEO: Science and Innovations, CLEO-SI 2025

Y2 - 4 May 2025 through 9 May 2025

ER -

Orthogonalization of a Microcomb Degrees of Freedom for On-chip Clock Architecture

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