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Published November 2018 | Published + Accepted Version
Journal Article Open

A Deep Search for Planets in the Inner 15 au around Vega

Abstract

We present the results of a deep high-contrast imaging search for planets around Vega. Vega is an ideal target for high-contrast imaging because it is bright, nearby, and young with a face-on two-belt debris disk that may be shaped by unseen planets. We obtained J- and H-band data on Vega with the coronagraphic integral-field spectrograph Project 1640 (P1640) at Palomar Observatory. Two nights of data were obtained in 2016, in poor seeing conditions, and two additional nights in more favorable conditions in 2017. In total, we obtained 5.5 hours of integration time on Vega in moderate to good seeing conditions (<1farcs5). We did not detect any low-mass companions in this system. Our data present the most sensitive contrast limits around Vega at very small separations (2–15 au) thus far, allowing us to place new constraints on the companions that may be sculpting the Vega system. In addition to new constraints, as the deepest data obtained with P1640, these observations form the final legacy of the now decommissioned instrument.

Additional Information

© 2018 The American Astronomical Society. Received 2018 June 11; revised 2018 September 5; accepted 2018 September 11; published 2018 October 18. We thank the anonymous referee for their helpful suggestions that improved this paper. We thank the Palomar mountain crew, especially Bruce Baker, Mike Doyle, Carolyn Heffner, John Henning, Greg van Idsinga, Steve Kunsman, Dan McKenna, Jean Mueller, Kajsa Peffer, Paul Nied, Joel Pearman, Kevin Rykoski, Carolyn Heffner, Jamey Eriksen, and Pam Thompson. We thank AAron Veicht for his contributions to the data acquisition during the observations. K.Y.L.S. acknowledges the partial support from the NASA grant NNX15AI86G. G.V. acknowledges the JPL Research & Technology Program and the NASA XRP grant 399131.02.07.02.66.

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Published - Meshkat_2018_AJ_156_214.pdf

Accepted Version - 1809.06941.pdf

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August 19, 2023
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