A laser frequency comb that enables radial velocity measurements with a precision of 1 cm s(-1)

A laser frequency comb that enables radial velocity measurements with a precision of 1 cm s(-1)

Searches for extrasolar planets using the periodic Doppler shift of stellar spectral lines have recently achieved a precision of 60 cm s(-1) (ref. 1), which is sufficient to find a 5-Earth-mass planet in a Mercury-like orbit around a Sun-like star. To find a 1-Earth-mass planet in an Earth-like orbi...

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Veröffentlicht in:Nature (London) 2008-04, Vol.452 (7187), p.610-612
Hauptverfasser: Li, Chih-Hao, Benedick, Andrew J, Fendel, Peter, Glenday, Alexander G, Kärtner, Franz X, Phillips, David F, Sasselov, Dimitar, Szentgyorgyi, Andrew, Walsworth, Ronald L
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container_end_page 612
container_issue 7187
container_start_page 610
container_title Nature (London)
container_volume 452
creator Li, Chih-Hao
Benedick, Andrew J
Fendel, Peter
Glenday, Alexander G
Kärtner, Franz X
Phillips, David F
Sasselov, Dimitar
Szentgyorgyi, Andrew
Walsworth, Ronald L
description Searches for extrasolar planets using the periodic Doppler shift of stellar spectral lines have recently achieved a precision of 60 cm s(-1) (ref. 1), which is sufficient to find a 5-Earth-mass planet in a Mercury-like orbit around a Sun-like star. To find a 1-Earth-mass planet in an Earth-like orbit, a precision of approximately 5 cm s(-1) is necessary. The combination of a laser frequency comb with a Fabry-Pérot filtering cavity has been suggested as a promising approach to achieve such Doppler shift resolution via improved spectrograph wavelength calibration, with recent encouraging results. Here we report the fabrication of such a filtered laser comb with up to 40-GHz (approximately 1-A) line spacing, generated from a 1-GHz repetition-rate source, without compromising long-term stability, reproducibility or spectral resolution. This wide-line-spacing comb, or 'astro-comb', is well matched to the resolving power of high-resolution astrophysical spectrographs. The astro-comb should allow a precision as high as 1 cm s(-1) in astronomical radial velocity measurements.
doi_str_mv 10.1038/nature06854
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title A laser frequency comb that enables radial velocity measurements with a precision of 1 cm s(-1)
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