A Search for the Transit of HD 168443b: Improved Orbital Parameters and   Photometry

Genady Pilyavsky; Suvrath Mahadevan; Stephen R. Kane; Andrew W.; Howard; David R. Ciardi; Chris de Pree; Diana Dragomir; Debra Fischer,; Gregory W. Henry; Eric L. N. Jensen; Gregory Laughlin; Hannah Marlowe; Markus; Rabus; Kaspar von Braun; Jason T. Wright; Xuesong X. Wang

arXiv:1109.5166·astro-ph.EP·May 30, 2015

A Search for the Transit of HD 168443b: Improved Orbital Parameters and Photometry

Genady Pilyavsky, Suvrath Mahadevan, Stephen R. Kane, Andrew W., Howard, David R. Ciardi, Chris de Pree, Diana Dragomir, Debra Fischer,, Gregory W. Henry, Eric L. N. Jensen, Gregory Laughlin, Hannah Marlowe, Markus, Rabus, Kaspar von Braun, Jason T. Wright, Xuesong X. Wang

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TL;DR

This study refined the orbital parameters of HD 168443b and conducted a photometric search for transits, ultimately ruling out a non-grazing transit despite the high probability due to orbital eccentricity.

Contribution

The paper provides improved orbital data and transit ephemeris for HD 168443b, enabling targeted photometric searches and ruling out transits with high confidence.

Findings

01

Refined orbital parameters of HD 168443b.

02

No evidence of a transit was found in photometric data.

03

Transit of HD 168443b is ruled out for non-grazing configurations.

Abstract

The discovery of transiting planets around bright stars holds the potential to greatly enhance our understanding of planetary atmospheres. In this work we present the search for transits of HD 168443b, a massive planet orbiting the bright star HD 168443 V=6.92 with a period of 58.11 days. The high eccentricity of the planetary orbit e=0.53 significantly enhances the a-priori transit probability beyond that expected for a circular orbit, making HD 168443 a candidate for our ongoing Transit Ephemeris Refinement and Monitoring Survey (TERMS). Using additional radial velocities from Keck-HIRES, we refined the orbital parameters of this multi-planet system and derived a new transit ephemeris for HD 168443b. The reduced uncertainties in the transit window make a photometric transit search practicable. Photometric observations acquired during predicted transit windows were obtained on three…

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