Self-referencing a continuous-wave laser with electro-optic modulation

Beha, Katja; Cole, Daniel C.; Del'Haye, Pascal; Coillet, Aurélien; Diddams, Scott A.; Papp, Scott B.

doi:1507.06344v1

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Self-referencing a continuous-wave laser with electro-optic modulation

Beha, K., Cole, D. C., Del'Haye, P., Coillet, A., Diddams, S. A., & Papp, S. B. (submitted). Self-referencing a continuous-wave laser with electro-optic modulation.

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Item Permalink: https://hdl.handle.net/21.11116/0000-0006-6AAC-2 Version Permalink: https://hdl.handle.net/21.11116/0000-0006-6AAD-1

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Creators:
Beha, Katja¹, Author
Cole, Daniel C.¹, Author
Del'Haye, Pascal², Author
Coillet, Aurélien¹, Author
Diddams, Scott A.¹, Author
Papp, Scott B.¹, Author

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1external, ou_persistent22
2External Organizations, ou_persistent22

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Abstract: We phase-coherently measure the frequency of continuous-wave (CW) laser light by use of optical-phase modulation and f-2f nonlinear interferometry. Periodic electro-optic modulation (EOM) transforms the CW laser into a continuous train of picosecond optical pulses. Subsequent nonlinear-fiber broadening of this EOM frequency comb produces a supercontinuum with 160 THz of bandwidth. A critical intermediate step is optical filtering of the EOM comb to reduce electronic-noise-induced decoherence of the supercontinuum. Applying f-2f self-referencing with the supercontinuum yields the carrier-envelope offset frequency of the EOM comb, which is precisely the difference of the CW laser frequency and an exact integer multiple of the EOM pulse repetition rate. Here we demonstrate absolute optical frequency metrology and synthesis applications of the self-referenced CW laser with <5E-14 fractional accuracy and stability.

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Language(s): eng - English

Dates: Submitted: 2015-07-22

Publication Status: Submitted

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Identifiers: DOI: 1507.06344v1

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Title: arXiv: 1507.06344v1

Source Genre: Commentary

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Publ. Info: Cornell University Library

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