Journal Article

Red Optical Planet Survey: a new search for habitable earths in the southern sky

J. R. Barnes, J. S. Jenkins, H. R. A. Jones, P. Rojo, P. Arriagada, A. Jordán, D. Minniti, M. Tuomi, S. V. Jeffers and D. Pinfield

in Monthly Notices of the Royal Astronomical Society

Published on behalf of The Royal Astronomical Society

Volume 424, issue 1, pages 591-604
Published in print July 2012 | ISSN: 0035-8711
Published online July 2012 | e-ISSN: 1365-2966 | DOI: http://dx.doi.org/10.1111/j.1365-2966.2012.21236.x
Red Optical Planet Survey: a new search for habitable earths in the southern sky

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We present the first results from our Red Optical Planet Survey to search for low-mass planets orbiting late-type dwarfs (M5.5V–M9V) in their habitable zones. Our observations with the red arm of the Magellan Inamori Kyocera Echelle spectrograph (0.5–0.9 m) at the 6.5-m Magellan Clay telescope at Las Campanas Observatory indicate that ≥92 per cent of the flux lies beyond 0.7 m. We use a novel approach that is essentially a hybrid of the simultaneous iodine and ThAr methods for determining precision radial velocities. We apply least squares deconvolution to obtain a single high signal-to-noise ratio (S/N) stellar line for each spectrum and cross-correlate against the simultaneously observed telluric line profile, which we derive in the same way.

Utilizing the 0.62–0.90 m region, we have achieved an rms precision of 10 ms−1 for an M5.5V spectral type star with spectral S/N ∼ 160 on 5-min time-scales. By M8V spectral type, a precision of ∼30 ms−1 at S/N = 25 is suggested, although more observations are needed. An assessment of our errors and scatter in the radial velocity points hints at the presence of stellar radial velocity variations. Of our sample of seven stars, two show radial velocity signals at 6σ and 10σ of the cross-correlation uncertainties. We find that chromospheric activity (via Hα variation) does not have an impact on our measurements and are unable to determine a relationship between the derived photospheric line profile morphology and radial velocity variations without further observations. If the signals are planetary in origin, our findings are consistent with estimates of Neptune mass planets that predict a frequency of 13–27 per cent for early M dwarfs.

Our current analysis indicates the we can achieve a sensitivity that is equivalent to the amplitude induced by a 6 M planet orbiting in the habitable zone. Based on simulations, we estimate that <10 M habitable zone planets will be detected in a new stellar mass regime, with ≤20 epochs of observations. Higher resolution and greater instrument stability indicate that photon-limited precisions of 2 ms−1 are attainable on moderately rotating M dwarfs (with vsin i≤ 5 km s−1) using our technique.

Keywords: techniques: radial velocities; planets and satellites: detection; planets and satellites: fundamental properties; stars: activity; stars: late-types

Journal Article.  11088 words.  Illustrated.

Subjects: Astronomy and Astrophysics

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