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On timing jitter of mode locked Kerr frequency combsAndrey B. Matsko and Lute Maleki »View Author Affiliations
Andrey B. Matsko^{*}
and Lute Maleki
^{}OEwaves Inc., 465 N. Halstead Street, Ste. 140, Pasadena, CA 91107, USA ^{*}Corresponding author: andrey.matsko@oewaves.com |
Optics Express, Vol. 21, Issue 23, pp. 28862-28876 (2013)
http://dx.doi.org/10.1364/OE.21.028862
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Abstract
We study fundamental timing jitter in repetition rate of a mode locked Kerr frequency comb generated in an externally pumped nonlinear ring resonator. We show that the increase in the integrated power of the comb harmonics, and the corresponding decrease of the duration of the associated pulse, results in the increase of low frequency noise, and a decrease in high frequency noise.
© 2013 OSA
OCIS Codes
(190.4360) Nonlinear optics : Nonlinear optics, devices
(190.5530) Nonlinear optics : Pulse propagation and temporal solitons
(230.4910) Optical devices : Oscillators
(270.2500) Quantum optics : Fluctuations, relaxations, and noise
ToC Category:
Nonlinear Optics
History
Original Manuscript: September 17, 2013
Revised Manuscript: October 14, 2013
Manuscript Accepted: October 15, 2013
Published: November 15, 2013
Virtual Issues
Nonlinear Optics (2013) Optics Express
Citation
Andrey B. Matsko and Lute Maleki, "On timing jitter of mode locked Kerr frequency combs," Opt. Express 21, 28862-28876 (2013)
http://www.opticsinfobase.org/oe/abstract.cfm?URI=oe-21-23-28862
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References
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- C. Godey, I. Balakireva, A. Coillet, and Y. K. Chembo, “Stability analysis of the Lugiato-Lefever model for Kerr optical frequency combs. Part I: Case of normal dispersion,” arXiv:1308.2539 (2013).
- A. Coillet, I. Balakireva, R. Henriet, K. Saleh, L. Larger, J. M. Dudley, C. R. Menyuk, and Y. K. Chembo, “Azimuthal Turing patterns, bright and dark cavity solitons in Kerr combs generated with whispering-gallery-mode resonators,” IEEE Photonics J.5, 6100409 (2013). [CrossRef]
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- S. B. Papp, P. Del’Haye, and S. A. Diddams, “Parametric seeding of a microresonator optical frequency comb,” Opt. Express21, 17615–17624 (2013). [CrossRef] [PubMed]
- P. Del’Haye, S. B. Papp, and S. A. Diddams, “Self-injection locking and phase-locked states in microresonator-based optical frequency combs,” arXiv:1307.4091 (2013).
- P. Del-Haye, T. Herr, E. Gavartin, M. L. Gorodetsky, R. Holzwarth, and T. J. Kippenberg, “Octave spanning tunable frequency comb from a microresonator,” Phys. Rev. Lett.107, 063901 (2011). [CrossRef]
- P. Del-Haye, O. Arcizet, A. Schliesser, R. Holzwarth, and T. J. Kippenberg, “Full stabilization of a microresonator-based optical frequency comb,” Phys. Rev. Lett.101, 053903 (2008). [CrossRef]
- P. Del-Haye, A. Schliesser, O. Arcizet, T. Wilken, R. Holzwarth, and T. J. Kippenberg, “Optical frequency comb generation from a monolithic microresonator,” Nature450, 1214–1217 (2007). [CrossRef]
- S. B. Papp, P. Del’Haye, and S. A. Diddams, “Mechanical control of a microrod-resonator optical frequency comb,” Phys. Rev. X3, 031003 (2013). [CrossRef]
- S. B. Papp, P. Del’Haye, and S. A. Diddams, “Parametric seeding of a microresonator optical frequency comb,” Opt. Express21, 17615–17624 (2013). [CrossRef] [PubMed]
- T. J. Kippenberg, R. Holzwarth, and S. A. Diddams, “Microresonator-based optical frequency combs,” Science332, 555–559 (2011). [CrossRef] [PubMed]
- S. B. Papp and S. A. Diddams, “Spectral and temporal characterization of a fused quartz microresonator optical frequency comb,” Phys. Rev. A84, 053833 (2011). [CrossRef]
- P. Del’Haye, S. B. Papp, and S. A. Diddams, “Self-injection locking and phase-locked states in microresonator-based optical frequency combs,” arXiv:1307.4091 (2013).
- K. J. Blow and N. J. Doran, “Global and local chaos in the pumped nonlinear Schrödinger equation,” Phys. Rev. Lett.52, 526–529 (1984)
- L. Razzari, D. Duchesne, M. Ferrera, R. Morandotti, S. Chu, B. E. Little, and D. J. Moss, “CMOS-compatible integrated optical hyper-parametric oscillator,” Nat. Photonics4, 41–45 (2010). [CrossRef]
- A. Coillet, I. Balakireva, R. Henriet, K. Saleh, L. Larger, J. M. Dudley, C. R. Menyuk, and Y. K. Chembo, “Azimuthal Turing patterns, bright and dark cavity solitons in Kerr combs generated with whispering-gallery-mode resonators,” IEEE Photonics J.5, 6100409 (2013). [CrossRef]
- S. Coen and M. Erkintalo, “Universal scaling laws of Kerr frequency combs,” Opt. Lett.38, 1790–1792 (2013). [CrossRef] [PubMed]
- S. Coen, H. G. Randle, T. Sylvestre, and M. Erkintalo, “Modeling of octave-spanning Kerr frequency combs using a generalized mean-field Lugiato-Lefever model,” Opt. Lett.38, 37–39 (2013). [CrossRef] [PubMed]
- P. H. Wang, F. Ferdous, H. X. Miao, J. Wang, D. E. Leaird, K. Srinivasan, L. Chen, V. Aksyuk, and A. M. Weiner, “Observation of correlation between route to formation, coherence, noise, and communication performance of Kerr combs,” Opt. Express20, 29284–29295 (2012). [CrossRef]
- F. Ferdous, H. X. Miao, P. H. Wang, D. E. Leaird, K. Srinivasan, L. Chen, V. Aksyuk, and A. M. Weiner, “Probing coherence in microcavity frequency combs via optical pulse shaping,” Opt. Express20, 21033–21043 (2012). [CrossRef] [PubMed]
- F. Ferdous, H. X. Miao, D. E. Leaird, K. Srinivasan, J. Wang, L. Chen, L. T. Varghese, and A. M. Weiner, “Spectral line-by-line pulse shaping of on-chip microresonator frequency combs,” Nat. Photonics5, 770–776 (2011). [CrossRef]
- L. Razzari, D. Duchesne, M. Ferrera, R. Morandotti, S. Chu, B. E. Little, and D. J. Moss, “CMOS-compatible integrated optical hyper-parametric oscillator,” Nat. Photonics4, 41–45 (2010). [CrossRef]
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