Ultra-low power passive mode-locking using an integrated nonlinear microring resonator

Christian Reimer; Michael Kues; Benjamin Wetzel; Piotr Roztocki; Brent E. Little; Sai T. Chu; David J. Moss; Roberto Morandotti

doi:10.1364/cleo_si.2015.sth4h.8

Details

Original language	English
Title of host publication	CLEO
Subtitle of host publication	Science and Innovations, CLEO-SI 2015
Publisher	OSA - The Optical Society
Pages	2267
Number of pages	1
ISBN (electronic)	9781557529688
Publication status	Published - 4 May 2015
Externally published	Yes
Event	CLEO: Science and Innovations, CLEO-SI 2015 - San Jose, United States Duration: 10 May 2015 → 15 May 2015

Publication series

Name	CLEO: Science and Innovations, CLEO-SI 2015

Abstract

Using high nonlinear enhancement in a CMOS compatible microring resonator incorporated in a SOA based nonlinear loop-mirror laser architecture, we observe passive modelocking at extremely-low power levels generating 570ps pulses at a 14.8MHz repetition rate.

ASJC Scopus subject areas

Engineering(all)
Electrical and Electronic Engineering
Materials Science(all)
Electronic, Optical and Magnetic Materials
Physics and Astronomy(all)
Atomic and Molecular Physics, and Optics

Cite this

Ultra-low power passive mode-locking using an integrated nonlinear microring resonator. / Reimer, Christian; Kues, Michael; Wetzel, Benjamin et al.
CLEO: Science and Innovations, CLEO-SI 2015. OSA - The Optical Society, 2015. p. 2267 (CLEO: Science and Innovations, CLEO-SI 2015).

Research output: Chapter in book/report/conference proceeding › Conference contribution › Research › peer review

Reimer, C, Kues, M, Wetzel, B, Roztocki, P, Little, BE, Chu, ST, Moss, DJ & Morandotti, R 2015, Ultra-low power passive mode-locking using an integrated nonlinear microring resonator. in CLEO: Science and Innovations, CLEO-SI 2015. CLEO: Science and Innovations, CLEO-SI 2015, OSA - The Optical Society, pp. 2267, CLEO: Science and Innovations, CLEO-SI 2015, San Jose, United States, 10 May 2015. https://doi.org/10.1364/cleo_si.2015.sth4h.8

Reimer, C., Kues, M., Wetzel, B., Roztocki, P., Little, B. E., Chu, S. T., Moss, D. J., & Morandotti, R. (2015). Ultra-low power passive mode-locking using an integrated nonlinear microring resonator. In CLEO: Science and Innovations, CLEO-SI 2015 (pp. 2267). (CLEO: Science and Innovations, CLEO-SI 2015). OSA - The Optical Society. https://doi.org/10.1364/cleo_si.2015.sth4h.8

Reimer C, Kues M, Wetzel B, Roztocki P, Little BE, Chu ST et al. Ultra-low power passive mode-locking using an integrated nonlinear microring resonator. In CLEO: Science and Innovations, CLEO-SI 2015. OSA - The Optical Society. 2015. p. 2267. (CLEO: Science and Innovations, CLEO-SI 2015). doi: 10.1364/cleo_si.2015.sth4h.8

Reimer, Christian ; Kues, Michael ; Wetzel, Benjamin et al. / Ultra-low power passive mode-locking using an integrated nonlinear microring resonator. CLEO: Science and Innovations, CLEO-SI 2015. OSA - The Optical Society, 2015. pp. 2267 (CLEO: Science and Innovations, CLEO-SI 2015).

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abstract = "Using high nonlinear enhancement in a CMOS compatible microring resonator incorporated in a SOA based nonlinear loop-mirror laser architecture, we observe passive modelocking at extremely-low power levels generating 570ps pulses at a 14.8MHz repetition rate.",

author = "Christian Reimer and Michael Kues and Benjamin Wetzel and Piotr Roztocki and Little, {Brent E.} and Chu, {Sai T.} and Moss, {David J.} and Roberto Morandotti",

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AU - Reimer, Christian

AU - Kues, Michael

AU - Wetzel, Benjamin

AU - Roztocki, Piotr

AU - Little, Brent E.

AU - Chu, Sai T.

AU - Moss, David J.

AU - Morandotti, Roberto

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AB - Using high nonlinear enhancement in a CMOS compatible microring resonator incorporated in a SOA based nonlinear loop-mirror laser architecture, we observe passive modelocking at extremely-low power levels generating 570ps pulses at a 14.8MHz repetition rate.

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M3 - Conference contribution

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T3 - CLEO: Science and Innovations, CLEO-SI 2015

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Research@Leibniz University

Ultra-low power passive mode-locking using an integrated nonlinear microring resonator

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Abstract

ASJC Scopus subject areas

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