Direct evidence of a sub-stellar companion around CT Cha

T. O. B. Schmidt (1); R. Neuh\"auser (1); A. Seifahrt (1; 2); N.; Vogt (3; 4); A. Bedalov (1; 5); Ch. Helling (6); S. Witte (7); P. H.; Hauschildt (7) ((1) Astrophysikalisches Institut und; Universit\"ats-Sternwarte; Jena; Germany; (2) Institut f\"ur Astrophysik,; G\"ottingen; Germany; (3) Departamento de F\'isica y Astronom\'ia,; Valpara\'iso; Chile; (4) Universidad Catolica del Norte; Antofagasta; Chile,; (5) Faculty of Natural Sciences; Split; Croatia; (6) School of Physics and; Astronomy (SUPA); St. Andrews; UK; (7) Hamburger Sternwarte; Germany)

arXiv:0809.2812·astro-ph·November 13, 2009

Direct evidence of a sub-stellar companion around CT Cha

T. O. B. Schmidt (1), R. Neuh\"auser (1), A. Seifahrt (1, 2), N., Vogt (3, 4), A. Bedalov (1, 5), Ch. Helling (6), S. Witte (7), P. H., Hauschildt (7) ((1) Astrophysikalisches Institut und, Universit\"ats-Sternwarte, Jena, Germany, (2) Institut f\"ur Astrophysik,, G\"ottingen

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TL;DR

This paper presents direct observational evidence of a sub-stellar companion to CT Cha, demonstrating it is likely a brown dwarf or planetary mass object through imaging, spectroscopy, and proper motion analysis.

Contribution

First direct detection and characterization of a sub-stellar companion around CT Cha using AO imaging and spectroscopy, confirming its physical association and sub-stellar nature.

Findings

01

Companion has a temperature of 2600K and a mass of ~17 Jupiter masses.

02

The object shares common proper motion with CT Cha, confirming it as a bound companion.

03

Spectroscopy indicates ongoing accretion onto the companion.

Abstract

In our ongoing search for close and faint companions around T Tauri stars, we found a very faint (Ks=14.9mag, Ks_0=14.4mag) object, just ~2.67" northwest of the Chamaeleon star-forming region member CT Cha corresponding to a projected separation of ~440AU at 165+/-30 pc. We show that CT Cha A and this faint object form a common proper motion pair from data of the VLT Adaptive Optics (AO) instrument NACO taken in February 2006 and March 2007 and that the companion is by >=4 sigma significance not a stationary background object. Our AO integral field spectroscopy with SINFONI in J, and H+K bands yields a temperature of 2600+/-250K for the companion and an optical extinction of A_V=5.2+/-0.8mag, when compared to spectra calculated from Drift-Phoenix model atmospheres. We demonstrate the validity of the model fits by comparison to several other well-known young sub-stellar objects. Relative…

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