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Continuous ultraviolet to blue-green astrocomb

Continuous ultraviolet to blue-green astrocomb
Continuous ultraviolet to blue-green astrocomb

Cosmological and exoplanetary science using transformative telescopes like the ELT will demand precise calibration of astrophysical spectrographs in the blue-green, where stellar absorption lines are most abundant. Astrocombs-lasers providing a broadband sequence of regularly-spaced optical frequencies on a multi-GHz grid-promise an atomically-traceable calibration scale, but their realization in the blue-green is challenging for current infrared-laser-based technology. Here, we introduce a concept achieving a broad, continuous spectrum by combining second-harmonic generation and sum-frequency-mixing in an MgO:PPLN waveguide to generate 390-520 nm light from a 1 GHz Ti:sapphire frequency comb. Using a Fabry-Pérot filter, we extract a 30 GHz sub-comb spanning 392-472 nm, visualizing its thousands of modes on a high-resolution spectrograph. Experimental data and simulations demonstrate how the approach can bridge the spectral gap present in second-harmonic-only conversion. Requiring only [Formula: see text]100 pJ pulses, our concept establishes a new route to broadband UV-visible generation at GHz repetition rates.

2041-1723
Cheng, Yuk Shan
c40b926e-505e-4418-9468-ab0bc6629c39
Dadi, Kamalesh
38500ed0-f2f1-4e4a-94d1-ff72a4c342d4
Mitchell, Toby
1c71bcd7-aa19-425c-a7cf-f2243b3fb608
Thompson, Samantha
816bc9ee-f54c-4fd3-92e5-f763f47f944f
Piskunov, Nikolai
9fb9b02c-0c29-49eb-be3d-d3a8e2c227bc
Wright, Lewis D.
cd889216-a726-40a2-b6c5-0d96e0589078
Gawith, Corin B.E.
926665c0-84c7-4a1d-ae19-ee6d7d14c43e
McCracken, Richard A.
d25f022a-5c17-4c29-bcce-a480ac98c2a0
Reid, Derryck T.
eeddc284-e479-479f-afdd-9116ae55cfd9
Cheng, Yuk Shan
c40b926e-505e-4418-9468-ab0bc6629c39
Dadi, Kamalesh
38500ed0-f2f1-4e4a-94d1-ff72a4c342d4
Mitchell, Toby
1c71bcd7-aa19-425c-a7cf-f2243b3fb608
Thompson, Samantha
816bc9ee-f54c-4fd3-92e5-f763f47f944f
Piskunov, Nikolai
9fb9b02c-0c29-49eb-be3d-d3a8e2c227bc
Wright, Lewis D.
cd889216-a726-40a2-b6c5-0d96e0589078
Gawith, Corin B.E.
926665c0-84c7-4a1d-ae19-ee6d7d14c43e
McCracken, Richard A.
d25f022a-5c17-4c29-bcce-a480ac98c2a0
Reid, Derryck T.
eeddc284-e479-479f-afdd-9116ae55cfd9

Cheng, Yuk Shan, Dadi, Kamalesh, Mitchell, Toby, Thompson, Samantha, Piskunov, Nikolai, Wright, Lewis D., Gawith, Corin B.E., McCracken, Richard A. and Reid, Derryck T. (2024) Continuous ultraviolet to blue-green astrocomb. Nature Communications, 15 (1), [1466]. (doi:10.1038/s41467-024-45924-6).

Record type: Article

Abstract

Cosmological and exoplanetary science using transformative telescopes like the ELT will demand precise calibration of astrophysical spectrographs in the blue-green, where stellar absorption lines are most abundant. Astrocombs-lasers providing a broadband sequence of regularly-spaced optical frequencies on a multi-GHz grid-promise an atomically-traceable calibration scale, but their realization in the blue-green is challenging for current infrared-laser-based technology. Here, we introduce a concept achieving a broad, continuous spectrum by combining second-harmonic generation and sum-frequency-mixing in an MgO:PPLN waveguide to generate 390-520 nm light from a 1 GHz Ti:sapphire frequency comb. Using a Fabry-Pérot filter, we extract a 30 GHz sub-comb spanning 392-472 nm, visualizing its thousands of modes on a high-resolution spectrograph. Experimental data and simulations demonstrate how the approach can bridge the spectral gap present in second-harmonic-only conversion. Requiring only [Formula: see text]100 pJ pulses, our concept establishes a new route to broadband UV-visible generation at GHz repetition rates.

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Cheng_et_al_2024_Nature_Communications - Version of Record
Available under License Creative Commons Attribution.
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Accepted/In Press date: 7 February 2024
Published date: 17 February 2024
Additional Information: The authors gratefully acknowledge grant funding from the UK Science and Technologies Facilities Council (ST/Y001273/1, ST/S001328/1, ST/V000403/1, ST/X002306/1, ST/N002997/1, and ST/V000918/1); the Royal Academy of Engineering (RCSRF1718639 and RCSRF2223-1678); and the Knut and Alice Wallenberg Scholarship 2021. Publisher Copyright: © The Author(s) 2024.
Learn more about Zepler Institute for Photonics and Nanoelectronics research

Identifiers

Local EPrints ID: 487595
URI: http://eprints.soton.ac.uk/id/eprint/487595
DOI: doi:10.1038/s41467-024-45924-6
ISSN: 2041-1723
PURE UUID: fef6a017-7261-46e4-8258-c42544cd29bf
ORCID for Corin B.E. Gawith: ORCID iD orcid.org/0000-0002-3502-3558

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Date deposited: 28 Feb 2024 17:51
Last modified: 25 Apr 2024 01:36

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Contributors

Author: Yuk Shan Cheng
Author: Kamalesh Dadi
Author: Toby Mitchell
Author: Samantha Thompson
Author: Nikolai Piskunov
Author: Lewis D. Wright
Author: Corin B.E. Gawith ORCID iD
Author: Richard A. McCracken
Author: Derryck T. Reid

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