TY - JOUR
T1 - MAGELLAN ADAPTIVE OPTICS FIRST-LIGHT OBSERVATIONS of the EXOPLANET β PIC b. II. 3-5 μm DIRECT IMAGING with MagAO+Clio, and the EMPIRICAL BOLOMETRIC LUMINOSITY of A SELF-LUMINOUS GIANT PLANET
AU - Morzinski, Katie M.
AU - Males, Jared R.
AU - Skemer, Andy J.
AU - Close, Laird M.
AU - Hinz, Phil M.
AU - Rodigas, T. J.
AU - Puglisi, Alfio
AU - Esposito, Simone
AU - Riccardi, Armando
AU - Pinna, Enrico
AU - Xompero, Marco
AU - Briguglio, Runa
AU - Bailey, Vanessa P.
AU - Follette, Katherine B.
AU - Kopon, Derek
AU - Weinberger, Alycia J.
AU - Wu, Ya Lin
N1 - Publisher Copyright:
© 2015. The American Astronomical Society. All rights reserved..
PY - 2015/12/20
Y1 - 2015/12/20
N2 - Young giant exoplanets are a unique laboratory for understanding cool, low-gravity atmospheres. A quintessential example is the massive extrasolar planet β Pic b, which is 9 AU from and embedded in the debris disk of the young nearby A6V star β Pictoris. We observed the system with first light of the Magellan Adaptive Optics (MagAO) system. In Paper I we presented the first CCD detection of this planet with MagAO+VisAO. Here we present four MagAO+Clio images of β Pic b at 3.1 μm, 3.3 μm, L′, and including the first observation in the fundamental CH4 band. To remove systematic errors from the spectral energy distribution (SED), we re-calibrate the literature photometry and combine it with our own data, for a total of 22 independent measurements at 16 passbands from 0.99 to 4.8 μm. Atmosphere models demonstrate the planet is cloudy but are degenerate in effective temperature and radius. The measured SED now covers >80% of the planet's energy, so we approach the bolometric luminosity empirically. We calculate the luminosity by extending the measured SED with a blackbody and integrating to find log(/) From our bolometric luminosity and an age of 23 ±3 Myr, hot-start evolutionary tracks give a mass of 12.7 ±0.3 , radius of 1.45 ±0.02 , and Teff of 1708 ±23 K (model-dependent errors not included). Our empirically determined luminosity is in agreement with values from atmospheric models (typically dex), but brighter than values from the field-dwarf bolometric correction (typically dex), illustrating the limitations in comparing young exoplanets to old brown dwarfs.
AB - Young giant exoplanets are a unique laboratory for understanding cool, low-gravity atmospheres. A quintessential example is the massive extrasolar planet β Pic b, which is 9 AU from and embedded in the debris disk of the young nearby A6V star β Pictoris. We observed the system with first light of the Magellan Adaptive Optics (MagAO) system. In Paper I we presented the first CCD detection of this planet with MagAO+VisAO. Here we present four MagAO+Clio images of β Pic b at 3.1 μm, 3.3 μm, L′, and including the first observation in the fundamental CH4 band. To remove systematic errors from the spectral energy distribution (SED), we re-calibrate the literature photometry and combine it with our own data, for a total of 22 independent measurements at 16 passbands from 0.99 to 4.8 μm. Atmosphere models demonstrate the planet is cloudy but are degenerate in effective temperature and radius. The measured SED now covers >80% of the planet's energy, so we approach the bolometric luminosity empirically. We calculate the luminosity by extending the measured SED with a blackbody and integrating to find log(/) From our bolometric luminosity and an age of 23 ±3 Myr, hot-start evolutionary tracks give a mass of 12.7 ±0.3 , radius of 1.45 ±0.02 , and Teff of 1708 ±23 K (model-dependent errors not included). Our empirically determined luminosity is in agreement with values from atmospheric models (typically dex), but brighter than values from the field-dwarf bolometric correction (typically dex), illustrating the limitations in comparing young exoplanets to old brown dwarfs.
KW - instrumentation: adaptive optics
KW - planetary systems
KW - planets and satellites: individual (Beta Pictoris b)
KW - stars: individual (Beta Pictoris)
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U2 - 10.1088/0004-637X/815/2/108
DO - 10.1088/0004-637X/815/2/108
M3 - Article
AN - SCOPUS:84951767912
SN - 0004-637X
VL - 815
JO - Astrophysical Journal
JF - Astrophysical Journal
IS - 2
M1 - 108
ER -