Near-UV and optical observations of the transiting exoplanet TrES-3b

Jake D. Turner; Brianna M. Smart; Kevin K. Hardegree-Ullman; Timothy; M. Carleton; Amanda M. Walker-LaFollette; Benjamin E. Crawford,; Carter-Thaxton W. Smith; Allison M. McGraw; Lindsay C. Small; Marco; Rocchetto; Kathryn I. Cunningham; Allison P. M. Towner; Robert Zellem; Amy N.; Robertson; Blythe C. Guvenen; Kamber R. Schwarz; Emily E. Hardegree-Ullman,; Daniel Collura; Triana N. Henz; Cassandra Lejoly; Logan L. Richardson,; Michael A. Weinand; Joanna M. Taylor; Michael J. Daugherty; Ashley A. Wilson,; Carmen L. Austin

arXiv:1211.4895·astro-ph.EP·November 22, 2012

Near-UV and optical observations of the transiting exoplanet TrES-3b

Jake D. Turner, Brianna M. Smart, Kevin K. Hardegree-Ullman, Timothy, M. Carleton, Amanda M. Walker-LaFollette, Benjamin E. Crawford,, Carter-Thaxton W. Smith, Allison M. McGraw, Lindsay C. Small, Marco, Rocchetto, Kathryn I. Cunningham, Allison P. M. Towner, Robert Zellem

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TL;DR

This study presents near-UV and optical transit observations of TrES-3b, refining its physical parameters and setting upper limits on its magnetic field strength, while testing a method to detect planetary magnetic fields via transit timing differences.

Contribution

First near-UV light curve of TrES-3b and a refined measurement of its physical parameters, with an upper limit on magnetic field strength and evaluation of magnetic detection techniques.

Findings

01

No early ingress detected in near-UV transits.

02

Magnetic field strength of TrES-3b constrained to 0.013-1.3 G.

03

Refined planetary radius and updated ephemeris.

Abstract

We observed nine primary transits of the hot Jupiter TrES-3b in several optical and near-UV photometric bands from 2009 June to 2012 April in an attempt to detect its magnetic field. Vidotto, Jardine and Helling suggest that the magnetic field of TrES-3b can be constrained if its near-UV light curve shows an early ingress compared to its optical light curve, while its egress remains unaffected. Predicted magnetic field strengths of Jupiter-like planets should range between 8 G and 30 G. Using these magnetic field values and an assumed B_star of 100 G, the Vidotto et al. method predicts a timing difference of 5-11 min. We did not detect an early ingress in our three nights of near-UV observations, despite an average cadence of 68 s and an average photometric precision of 3.7 mmag. However, we determined an upper limit of TrES-3b's magnetic field strength to range between 0.013 and 1.3 G…

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