Frequency comb (English Wikipedia)

Analysis of information sources in references of the Wikipedia article "Frequency comb" in English language version.

refsWebsite

Global rank English rank

28doi.org

2^nd place

24harvard.edu

18^th place

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15nih.gov

4^th place

13semanticscholar.org

11^th place

8^th place

9worldcat.org

5^th place

6arxiv.org

69^th place

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3opticsinfobase.org

low place

2psu.edu

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2researchgate.net

120^th place

125^th place

2web.archive.org

1^st place

2optica.org

low place

1nobelprize.org

301^st place

478^th place

1uni-konstanz.de

low place

8,610^th place

1ieee.org

652^nd place

515^th place

1chalmers.se

low place

7,981^st place

1ethz.ch

2,224^th place

1,900^th place

1attoworld.de

low place

1eso.org

3,034^th place

2,650^th place

1nrc-cnrc.gc.ca

low place

1zenodo.org

621^st place

380^th place

1nist.gov

355^th place

454^th place

1science.org

1,160^th place

737^th place

1jilacolorado.edu

low place

arxiv.org

P. Del'Haye; A. Schliesser; O. Arcizet; T. Wilken; R. Holzwarth; T. J. Kippenberg (2007). "Optical frequency comb generation from a monolithic microresonator". Nature. 450 (7173): 1214–1217. arXiv:0708.0611. Bibcode:2007Natur.450.1214D. doi:10.1038/nature06401. PMID 18097405. S2CID 4426096.
Jérôme Faist; et al. (2016). "Quantum Cascade Laser Frequency Combs". Nanophotonics. 5 (2): 272. arXiv:1510.09075. Bibcode:2016Nanop...5...15F. doi:10.1515/nanoph-2016-0015. S2CID 119189132. "In contrast to mode-locked lasers, microresonator-based frequency combs (also called Kerr combs) can exhibit complex phase relations between modes that do not correspond to the emission of single pulses while remaining highly coherent [8]."
Torres-Company, Victor; Weiner, Andrew M. (May 2017). "Optical frequency comb technology for ultra-broadband radio-frequency photonics". Laser & Photonics Reviews. 8 (3): 368–393. arXiv:1403.2776. doi:10.1002/lpor.201300126. S2CID 33427587.
Hu, Yue; et al. (15 March 2017). "Computational Study of Amplitude-to-Phase Conversion in a Modified Unitraveling Carrier Photodetector" (PDF). IEEE Photonics Journal. 9 (2) 2682251. arXiv:1702.07732. Bibcode:2017IPhoJ...982251H. doi:10.1109/JPHOT.2017.2682251. S2CID 19450831.
Kandula, Dominik Z.; Gohle, Christoph; Pinkert, Tjeerd J.; Ubachs, Wim; Eikema, Kjeld S.E. (2 August 2010). "Extreme ultraviolet frequency comb metrology". Physical Review Letters. 105 (6): 063001. arXiv:1004.5110. Bibcode:2010PhRvL.105f3001K. doi:10.1103/PhysRevLett.105.063001. PMID 20867977. S2CID 2499460.
Cingöz, Arman; Yost, Dylan C.; Allison, Thomas K.; Ruehl, Axel; Fermann, Martin E.; Hartl, Ingmar; Ye, Jun (2 February 2012), "Direct frequency comb spectroscopy in the extreme ultraviolet", Nature, 482 (7383): 68–71, arXiv:1109.1871, Bibcode:2012Natur.482...68C, doi:10.1038/nature10711, PMID 22297971, S2CID 1630174

attoworld.de

Rauschenberger, Jens (24 April 2007). Phase-stabilized Ultrashort Laser Systems for Spectroscopy (PDF) (PhD thesis). Ludwig Maximilian University of Munich. doi:10.5282/edoc.7110. Retrieved 7 July 2024.

chalmers.se

research.chalmers.se

Metcalf, A. J.; Torres-Company, V.; Leaird, D. E.; Weiner, A. M. (2013-11-01). "High-Power Broadly Tunable Electrooptic Frequency Comb Generator". IEEE Journal of Selected Topics in Quantum Electronics. 19 (6): 231–236. Bibcode:2013IJSTQ..19..231M. doi:10.1109/JSTQE.2013.2268384. ISSN 1077-260X. S2CID 37911312.

doi.org

Hall, John L. (2006). "Nobel Lecture: Defining and measuring optical frequencies". Reviews of Modern Physics. 78 (4): 1279–1295. Bibcode:2006RvMP...78.1279H. doi:10.1103/revmodphys.78.1279.
Hänsch, Theodor W. (2006). "Nobel Lecture: Passion for precision". Reviews of Modern Physics. 78 (4): 1297–1309. Bibcode:2006RvMP...78.1297H. CiteSeerX 10.1.1.208.7371. doi:10.1103/revmodphys.78.1297.
Adler, Florian; Moutzouris, Konstantinos; Leitenstorfer, Alfred; Schnatz, Harald; Lipphardt, Burghard; Grosche, Gesine; Tauser, Florian (2004-11-29). "Phase-locked two-branch erbium-doped fiber laser system for long-term precision measurements of optical frequencies". Optics Express. 12 (24): 5872–80. Bibcode:2004OExpr..12.5872A. doi:10.1364/OPEX.12.005872. ISSN 1094-4087. PMID 19488226.
Ma, Long-Sheng; Bi, Zhiyi; Bartels, Albrecht; et al. (2004). "Optical Frequency Synthesis and Comparison with Uncertainty at the 10⁻¹⁹ Level" (PDF). Science. 303 (5665): 1843–1845. Bibcode:2004Sci...303.1843M. doi:10.1126/science.1095092. PMID 15031498. S2CID 15978159.
Bartels, Albrecht (14 July 2009). "10-GHz Self-Referenced Optical Frequency Comb". Science. 326 (5953): 681. Bibcode:2009Sci...326..681B. CiteSeerX 10.1.1.668.1986. doi:10.1126/science.1179112. PMID 19900924. S2CID 30199867.
Sefler, G.A.; Kitayama, K. (1998). "Frequency comb generation by four-wave mixing and the role of fiber dispersion". Journal of Lightwave Technology. 16 (9): 1596–1605. Bibcode:1998JLwT...16.1596S. doi:10.1109/50.712242.
P. Del'Haye; A. Schliesser; O. Arcizet; T. Wilken; R. Holzwarth; T. J. Kippenberg (2007). "Optical frequency comb generation from a monolithic microresonator". Nature. 450 (7173): 1214–1217. arXiv:0708.0611. Bibcode:2007Natur.450.1214D. doi:10.1038/nature06401. PMID 18097405. S2CID 4426096.
Jérôme Faist; et al. (2016). "Quantum Cascade Laser Frequency Combs". Nanophotonics. 5 (2): 272. arXiv:1510.09075. Bibcode:2016Nanop...5...15F. doi:10.1515/nanoph-2016-0015. S2CID 119189132. "In contrast to mode-locked lasers, microresonator-based frequency combs (also called Kerr combs) can exhibit complex phase relations between modes that do not correspond to the emission of single pulses while remaining highly coherent [8]."
Andrew M. Weiner (2017). "Frequency combs: Cavity solitons come of age". Nature Photonics. 11 (9): 533–535. doi:10.1038/nphoton.2017.149. S2CID 126121332.
Murata, H.; Morimoto, A.; Kobayashi, T.; Yamamoto, S. (2000-11-01). "Optical pulse generation by electrooptic-modulation method and its application to integrated ultrashort pulse generators". IEEE Journal of Selected Topics in Quantum Electronics. 6 (6): 1325–1331. Bibcode:2000IJSTQ...6.1325M. doi:10.1109/2944.902186. ISSN 1077-260X. S2CID 41791989.
Torres-Company, Victor; Weiner, Andrew M. (May 2017). "Optical frequency comb technology for ultra-broadband radio-frequency photonics". Laser & Photonics Reviews. 8 (3): 368–393. arXiv:1403.2776. doi:10.1002/lpor.201300126. S2CID 33427587.
Wu, Rui; Torres-Company, Victor; Leaird, Daniel E.; Weiner, Andrew M. (2013-03-11). "Supercontinuum-based 10-GHz flat-topped optical frequency comb generation". Optics Express. 21 (5): 6045–6052. Bibcode:2013OExpr..21.6045W. doi:10.1364/OE.21.006045. ISSN 1094-4087. PMID 23482172.
Metcalf, A. J.; Torres-Company, V.; Leaird, D. E.; Weiner, A. M. (2013-11-01). "High-Power Broadly Tunable Electrooptic Frequency Comb Generator". IEEE Journal of Selected Topics in Quantum Electronics. 19 (6): 231–236. Bibcode:2013IJSTQ..19..231M. doi:10.1109/JSTQE.2013.2268384. ISSN 1077-260X. S2CID 37911312.
Kobayashi, T.; Sueta, T.; Cho, Y.; Matsuo, Y. (1972-10-15). "High-repetition-rate optical pulse generator using a Fabry-Perot electro-optic modulator". Applied Physics Letters. 21 (8): 341–343. Bibcode:1972ApPhL..21..341K. doi:10.1063/1.1654403. ISSN 0003-6951.
Telle, H. R.; Steinmeyer, G.; Dunlop, A. E.; Stenger, J.; Sutter, D. H.; Keller, U. (October 1999). "Carrier–envelope offset phase control: A novel concept for absolute optical frequency measurement and ultrashort pulse generation" (PDF). Appl. Phys. B. 69 (4): 327–332. doi:10.1007/s003400050813.
Hu, Yue; et al. (15 March 2017). "Computational Study of Amplitude-to-Phase Conversion in a Modified Unitraveling Carrier Photodetector" (PDF). IEEE Photonics Journal. 9 (2) 2682251. arXiv:1702.07732. Bibcode:2017IPhoJ...982251H. doi:10.1109/JPHOT.2017.2682251. S2CID 19450831.
Rauschenberger, Jens (24 April 2007). Phase-stabilized Ultrashort Laser Systems for Spectroscopy (PDF) (PhD thesis). Ludwig Maximilian University of Munich. doi:10.5282/edoc.7110. Retrieved 7 July 2024.
Newbury, Nathan R. (2011). "Searching for applications with a fine-tooth comb". Nature Photonics. 5 (4): 186–188. Bibcode:2011NaPho...5..186N. doi:10.1038/nphoton.2011.38.
Temprana, E.; Myslivets, E.; Kuo, B. P.-P.; Liu, L.; Ataie, V.; Alic, N.; Radic, S. (2015-06-26). "Overcoming Kerr-induced capacity limit in optical fiber transmission". Science. 348 (6242): 1445–1448. Bibcode:2015Sci...348.1445T. doi:10.1126/science.aab1781. ISSN 0036-8075. PMID 26113716. S2CID 41906650.
Cundiff, Steven T.; Weiner, Andrew M. (2010). "Optical arbitrary waveform generation". Nature Photonics. 4 (11): 760–766. Bibcode:2010NaPho...4..760C. doi:10.1038/nphoton.2010.196.
Coddington, Ian; Newbury, Nathan; Swann, William (2016-04-20). "Dual-comb spectroscopy". Optica. 3 (4): 414–426. Bibcode:2016Optic...3..414C. doi:10.1364/OPTICA.3.000414. ISSN 2334-2536. PMC 8201420. PMID 34131580.
Nürnberg, Jacob; Willenberg, Benjamin; Phillips, Christopher R.; Keller, Ursula (2021-08-02). "Dual-comb ranging with frequency combs from single cavity free-running laser oscillators". Optics Express. 29 (16): 24910. Bibcode:2021OExpr..2924910N. doi:10.1364/OE.428051. ISSN 1094-4087. PMID 34614835.
Patiño Rosas, William; Cézard, Nicolas (2024). "Greenhouse gas monitoring using an IPDA lidar based on a dual-comb spectrometer". Optics Express. 32 (8): 13614. Bibcode:2024OExpr..3213614P. doi:10.1364/oe.515543. PMID 38859327. Retrieved 2024-04-02.
Diddams, Scott A.; Vahala, Kerry; Udem, Thomas (2020-07-17). "Optical frequency combs: Coherently uniting the electromagnetic spectrum". Science. 369 (6501): 367. Bibcode:2020Sci...369..367D. doi:10.1126/science.aay3676. ISSN 0036-8075. PMID 32675346.
Jones, R. Jason; Moll, Kevin D.; Thorpe, Michael J.; Ye, Jun (20 May 2005), "Phase-Coherent Frequency Combs in the Vacuum Ultraviolet via High-Harmonic Generation inside a Femtosecond Enhancement Cavity" (PDF), Physical Review Letters, 94 (19): 193201, Bibcode:2005PhRvL..94s3201J, doi:10.1103/PhysRevLett.94.193201, PMID 16090171, archived from the original (PDF) on 2014-08-12, retrieved 2014-07-31
Gohle, Christoph; Udem, Thomas; Herrmann, Maximilian; Rauschenberger, Jens; Holzwarth, Ronald; Schuessler, Hans A.; Krausz, Ferenc; Hänsch, Theodor W. (2005), "A frequency comb in the extreme ultraviolet", Nature, 436 (14 July 2005): 234–237, Bibcode:2005Natur.436..234G, doi:10.1038/nature03851, PMID 16015324, S2CID 1029631
Kandula, Dominik Z.; Gohle, Christoph; Pinkert, Tjeerd J.; Ubachs, Wim; Eikema, Kjeld S.E. (2 August 2010). "Extreme ultraviolet frequency comb metrology". Physical Review Letters. 105 (6): 063001. arXiv:1004.5110. Bibcode:2010PhRvL.105f3001K. doi:10.1103/PhysRevLett.105.063001. PMID 20867977. S2CID 2499460.
Cingöz, Arman; Yost, Dylan C.; Allison, Thomas K.; Ruehl, Axel; Fermann, Martin E.; Hartl, Ingmar; Ye, Jun (2 February 2012), "Direct frequency comb spectroscopy in the extreme ultraviolet", Nature, 482 (7383): 68–71, arXiv:1109.1871, Bibcode:2012Natur.482...68C, doi:10.1038/nature10711, PMID 22297971, S2CID 1630174

eso.org

"HARPS Laser Frequency Comb Commissioned". European Southern Observatory. 22 May 2015.

ethz.ch

ulp.ethz.ch

Telle, H. R.; Steinmeyer, G.; Dunlop, A. E.; Stenger, J.; Sutter, D. H.; Keller, U. (October 1999). "Carrier–envelope offset phase control: A novel concept for absolute optical frequency measurement and ultrashort pulse generation" (PDF). Appl. Phys. B. 69 (4): 327–332. doi:10.1007/s003400050813.

harvard.edu

ui.adsabs.harvard.edu

Hall, John L. (2006). "Nobel Lecture: Defining and measuring optical frequencies". Reviews of Modern Physics. 78 (4): 1279–1295. Bibcode:2006RvMP...78.1279H. doi:10.1103/revmodphys.78.1279.
Hänsch, Theodor W. (2006). "Nobel Lecture: Passion for precision". Reviews of Modern Physics. 78 (4): 1297–1309. Bibcode:2006RvMP...78.1297H. CiteSeerX 10.1.1.208.7371. doi:10.1103/revmodphys.78.1297.
Adler, Florian; Moutzouris, Konstantinos; Leitenstorfer, Alfred; Schnatz, Harald; Lipphardt, Burghard; Grosche, Gesine; Tauser, Florian (2004-11-29). "Phase-locked two-branch erbium-doped fiber laser system for long-term precision measurements of optical frequencies". Optics Express. 12 (24): 5872–80. Bibcode:2004OExpr..12.5872A. doi:10.1364/OPEX.12.005872. ISSN 1094-4087. PMID 19488226.
Ma, Long-Sheng; Bi, Zhiyi; Bartels, Albrecht; et al. (2004). "Optical Frequency Synthesis and Comparison with Uncertainty at the 10⁻¹⁹ Level" (PDF). Science. 303 (5665): 1843–1845. Bibcode:2004Sci...303.1843M. doi:10.1126/science.1095092. PMID 15031498. S2CID 15978159.
Bartels, Albrecht (14 July 2009). "10-GHz Self-Referenced Optical Frequency Comb". Science. 326 (5953): 681. Bibcode:2009Sci...326..681B. CiteSeerX 10.1.1.668.1986. doi:10.1126/science.1179112. PMID 19900924. S2CID 30199867.
Sefler, G.A.; Kitayama, K. (1998). "Frequency comb generation by four-wave mixing and the role of fiber dispersion". Journal of Lightwave Technology. 16 (9): 1596–1605. Bibcode:1998JLwT...16.1596S. doi:10.1109/50.712242.
P. Del'Haye; A. Schliesser; O. Arcizet; T. Wilken; R. Holzwarth; T. J. Kippenberg (2007). "Optical frequency comb generation from a monolithic microresonator". Nature. 450 (7173): 1214–1217. arXiv:0708.0611. Bibcode:2007Natur.450.1214D. doi:10.1038/nature06401. PMID 18097405. S2CID 4426096.
Jérôme Faist; et al. (2016). "Quantum Cascade Laser Frequency Combs". Nanophotonics. 5 (2): 272. arXiv:1510.09075. Bibcode:2016Nanop...5...15F. doi:10.1515/nanoph-2016-0015. S2CID 119189132. "In contrast to mode-locked lasers, microresonator-based frequency combs (also called Kerr combs) can exhibit complex phase relations between modes that do not correspond to the emission of single pulses while remaining highly coherent [8]."
Murata, H.; Morimoto, A.; Kobayashi, T.; Yamamoto, S. (2000-11-01). "Optical pulse generation by electrooptic-modulation method and its application to integrated ultrashort pulse generators". IEEE Journal of Selected Topics in Quantum Electronics. 6 (6): 1325–1331. Bibcode:2000IJSTQ...6.1325M. doi:10.1109/2944.902186. ISSN 1077-260X. S2CID 41791989.
Wu, Rui; Torres-Company, Victor; Leaird, Daniel E.; Weiner, Andrew M. (2013-03-11). "Supercontinuum-based 10-GHz flat-topped optical frequency comb generation". Optics Express. 21 (5): 6045–6052. Bibcode:2013OExpr..21.6045W. doi:10.1364/OE.21.006045. ISSN 1094-4087. PMID 23482172.
Metcalf, A. J.; Torres-Company, V.; Leaird, D. E.; Weiner, A. M. (2013-11-01). "High-Power Broadly Tunable Electrooptic Frequency Comb Generator". IEEE Journal of Selected Topics in Quantum Electronics. 19 (6): 231–236. Bibcode:2013IJSTQ..19..231M. doi:10.1109/JSTQE.2013.2268384. ISSN 1077-260X. S2CID 37911312.
Kobayashi, T.; Sueta, T.; Cho, Y.; Matsuo, Y. (1972-10-15). "High-repetition-rate optical pulse generator using a Fabry-Perot electro-optic modulator". Applied Physics Letters. 21 (8): 341–343. Bibcode:1972ApPhL..21..341K. doi:10.1063/1.1654403. ISSN 0003-6951.
Hu, Yue; et al. (15 March 2017). "Computational Study of Amplitude-to-Phase Conversion in a Modified Unitraveling Carrier Photodetector" (PDF). IEEE Photonics Journal. 9 (2) 2682251. arXiv:1702.07732. Bibcode:2017IPhoJ...982251H. doi:10.1109/JPHOT.2017.2682251. S2CID 19450831.
Newbury, Nathan R. (2011). "Searching for applications with a fine-tooth comb". Nature Photonics. 5 (4): 186–188. Bibcode:2011NaPho...5..186N. doi:10.1038/nphoton.2011.38.
Temprana, E.; Myslivets, E.; Kuo, B. P.-P.; Liu, L.; Ataie, V.; Alic, N.; Radic, S. (2015-06-26). "Overcoming Kerr-induced capacity limit in optical fiber transmission". Science. 348 (6242): 1445–1448. Bibcode:2015Sci...348.1445T. doi:10.1126/science.aab1781. ISSN 0036-8075. PMID 26113716. S2CID 41906650.
Cundiff, Steven T.; Weiner, Andrew M. (2010). "Optical arbitrary waveform generation". Nature Photonics. 4 (11): 760–766. Bibcode:2010NaPho...4..760C. doi:10.1038/nphoton.2010.196.
Coddington, Ian; Newbury, Nathan; Swann, William (2016-04-20). "Dual-comb spectroscopy". Optica. 3 (4): 414–426. Bibcode:2016Optic...3..414C. doi:10.1364/OPTICA.3.000414. ISSN 2334-2536. PMC 8201420. PMID 34131580.
Nürnberg, Jacob; Willenberg, Benjamin; Phillips, Christopher R.; Keller, Ursula (2021-08-02). "Dual-comb ranging with frequency combs from single cavity free-running laser oscillators". Optics Express. 29 (16): 24910. Bibcode:2021OExpr..2924910N. doi:10.1364/OE.428051. ISSN 1094-4087. PMID 34614835.
Patiño Rosas, William; Cézard, Nicolas (2024). "Greenhouse gas monitoring using an IPDA lidar based on a dual-comb spectrometer". Optics Express. 32 (8): 13614. Bibcode:2024OExpr..3213614P. doi:10.1364/oe.515543. PMID 38859327. Retrieved 2024-04-02.
Diddams, Scott A.; Vahala, Kerry; Udem, Thomas (2020-07-17). "Optical frequency combs: Coherently uniting the electromagnetic spectrum". Science. 369 (6501): 367. Bibcode:2020Sci...369..367D. doi:10.1126/science.aay3676. ISSN 0036-8075. PMID 32675346.
Jones, R. Jason; Moll, Kevin D.; Thorpe, Michael J.; Ye, Jun (20 May 2005), "Phase-Coherent Frequency Combs in the Vacuum Ultraviolet via High-Harmonic Generation inside a Femtosecond Enhancement Cavity" (PDF), Physical Review Letters, 94 (19): 193201, Bibcode:2005PhRvL..94s3201J, doi:10.1103/PhysRevLett.94.193201, PMID 16090171, archived from the original (PDF) on 2014-08-12, retrieved 2014-07-31
Gohle, Christoph; Udem, Thomas; Herrmann, Maximilian; Rauschenberger, Jens; Holzwarth, Ronald; Schuessler, Hans A.; Krausz, Ferenc; Hänsch, Theodor W. (2005), "A frequency comb in the extreme ultraviolet", Nature, 436 (14 July 2005): 234–237, Bibcode:2005Natur.436..234G, doi:10.1038/nature03851, PMID 16015324, S2CID 1029631
Kandula, Dominik Z.; Gohle, Christoph; Pinkert, Tjeerd J.; Ubachs, Wim; Eikema, Kjeld S.E. (2 August 2010). "Extreme ultraviolet frequency comb metrology". Physical Review Letters. 105 (6): 063001. arXiv:1004.5110. Bibcode:2010PhRvL.105f3001K. doi:10.1103/PhysRevLett.105.063001. PMID 20867977. S2CID 2499460.
Cingöz, Arman; Yost, Dylan C.; Allison, Thomas K.; Ruehl, Axel; Fermann, Martin E.; Hartl, Ingmar; Ye, Jun (2 February 2012), "Direct frequency comb spectroscopy in the extreme ultraviolet", Nature, 482 (7383): 68–71, arXiv:1109.1871, Bibcode:2012Natur.482...68C, doi:10.1038/nature10711, PMID 22297971, S2CID 1630174

ieee.org

ieeexplore.ieee.org

Boggio, J. C.; Moro, S.; Windmiller, J. R.; Zlatanovic, S.; Myslivets, E.; Alic, N.; Radic, S. (2009). "Optical frequency comb generated by four-wave mixing in highly nonlinear fibers". Cleo/Qels 2009: 1–2.

jilacolorado.edu

Jones, R. Jason; Moll, Kevin D.; Thorpe, Michael J.; Ye, Jun (20 May 2005), "Phase-Coherent Frequency Combs in the Vacuum Ultraviolet via High-Harmonic Generation inside a Femtosecond Enhancement Cavity" (PDF), Physical Review Letters, 94 (19): 193201, Bibcode:2005PhRvL..94s3201J, doi:10.1103/PhysRevLett.94.193201, PMID 16090171, archived from the original (PDF) on 2014-08-12, retrieved 2014-07-31

nih.gov

pubmed.ncbi.nlm.nih.gov

Adler, Florian; Moutzouris, Konstantinos; Leitenstorfer, Alfred; Schnatz, Harald; Lipphardt, Burghard; Grosche, Gesine; Tauser, Florian (2004-11-29). "Phase-locked two-branch erbium-doped fiber laser system for long-term precision measurements of optical frequencies". Optics Express. 12 (24): 5872–80. Bibcode:2004OExpr..12.5872A. doi:10.1364/OPEX.12.005872. ISSN 1094-4087. PMID 19488226.
Ma, Long-Sheng; Bi, Zhiyi; Bartels, Albrecht; et al. (2004). "Optical Frequency Synthesis and Comparison with Uncertainty at the 10⁻¹⁹ Level" (PDF). Science. 303 (5665): 1843–1845. Bibcode:2004Sci...303.1843M. doi:10.1126/science.1095092. PMID 15031498. S2CID 15978159.
Bartels, Albrecht (14 July 2009). "10-GHz Self-Referenced Optical Frequency Comb". Science. 326 (5953): 681. Bibcode:2009Sci...326..681B. CiteSeerX 10.1.1.668.1986. doi:10.1126/science.1179112. PMID 19900924. S2CID 30199867.
P. Del'Haye; A. Schliesser; O. Arcizet; T. Wilken; R. Holzwarth; T. J. Kippenberg (2007). "Optical frequency comb generation from a monolithic microresonator". Nature. 450 (7173): 1214–1217. arXiv:0708.0611. Bibcode:2007Natur.450.1214D. doi:10.1038/nature06401. PMID 18097405. S2CID 4426096.
Wu, Rui; Torres-Company, Victor; Leaird, Daniel E.; Weiner, Andrew M. (2013-03-11). "Supercontinuum-based 10-GHz flat-topped optical frequency comb generation". Optics Express. 21 (5): 6045–6052. Bibcode:2013OExpr..21.6045W. doi:10.1364/OE.21.006045. ISSN 1094-4087. PMID 23482172.
Temprana, E.; Myslivets, E.; Kuo, B. P.-P.; Liu, L.; Ataie, V.; Alic, N.; Radic, S. (2015-06-26). "Overcoming Kerr-induced capacity limit in optical fiber transmission". Science. 348 (6242): 1445–1448. Bibcode:2015Sci...348.1445T. doi:10.1126/science.aab1781. ISSN 0036-8075. PMID 26113716. S2CID 41906650.
Coddington, Ian; Newbury, Nathan; Swann, William (2016-04-20). "Dual-comb spectroscopy". Optica. 3 (4): 414–426. Bibcode:2016Optic...3..414C. doi:10.1364/OPTICA.3.000414. ISSN 2334-2536. PMC 8201420. PMID 34131580.
Nürnberg, Jacob; Willenberg, Benjamin; Phillips, Christopher R.; Keller, Ursula (2021-08-02). "Dual-comb ranging with frequency combs from single cavity free-running laser oscillators". Optics Express. 29 (16): 24910. Bibcode:2021OExpr..2924910N. doi:10.1364/OE.428051. ISSN 1094-4087. PMID 34614835.
Patiño Rosas, William; Cézard, Nicolas (2024). "Greenhouse gas monitoring using an IPDA lidar based on a dual-comb spectrometer". Optics Express. 32 (8): 13614. Bibcode:2024OExpr..3213614P. doi:10.1364/oe.515543. PMID 38859327. Retrieved 2024-04-02.
Diddams, Scott A.; Vahala, Kerry; Udem, Thomas (2020-07-17). "Optical frequency combs: Coherently uniting the electromagnetic spectrum". Science. 369 (6501): 367. Bibcode:2020Sci...369..367D. doi:10.1126/science.aay3676. ISSN 0036-8075. PMID 32675346.
Jones, R. Jason; Moll, Kevin D.; Thorpe, Michael J.; Ye, Jun (20 May 2005), "Phase-Coherent Frequency Combs in the Vacuum Ultraviolet via High-Harmonic Generation inside a Femtosecond Enhancement Cavity" (PDF), Physical Review Letters, 94 (19): 193201, Bibcode:2005PhRvL..94s3201J, doi:10.1103/PhysRevLett.94.193201, PMID 16090171, archived from the original (PDF) on 2014-08-12, retrieved 2014-07-31
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zenodo.org

Coddington, Ian; Newbury, Nathan; Swann, William (2016-04-20). "Dual-comb spectroscopy". Optica. 3 (4): 414–426. Bibcode:2016Optic...3..414C. doi:10.1364/OPTICA.3.000414. ISSN 2334-2536. PMC 8201420. PMID 34131580.