PSO J318.5−22

PSO J318.5-22 was discovered in data of Pan-STARRS and 2MASS in 2013. Follow-up observations were carried out with URKIRT (photometry), NASA IRTF and Gemini North (both spectroscopy). The team leader, Michael Liu of the Institute for Astronomy at the University of Hawaii, stated, "We have never before seen an object free-floating in space that looks like this. It has all the characteristics of young planets found around other stars, but it is drifting out there all alone."

The spectrum of PSO J318.5-22 is in its redness in between low-gravity brown dwarfs and the planetary-mass companion 2M1207b, which is redder than PSO J318.5-22. The Gemini spectrum also shows several absorption features, such as weak iron hydride, sodium and potassium. Their weakness and a triangular H-band spectrum indicate a low gravity. Molecular absorption from water vapor and carbon monoxide are also detected. Low abundance of methane was detected in the L-band Keck/NIRSPEC spectrum of PSO J318.5-22. The team found that strong vertical mixing and photospheric clouds can explain the spectrum of PSO J318.5-22.

PSO J318.5-22 was initially suspected to be a member of the Beta Pictoris Moving group, but radial velocity was not available at this time. Later radial velocity measurement with the help of high-resolution spectroscopy from Gemini North confirmed it as a Beta Pictoris member. This group also revised the physical properties due to Beta Pictoris being older than previously thought. It has a mass of 8.3 ±0.5 {{Jupiter mass|link=true}}.

Variability was first detected with the New Technology Telescope, showing a rotation period larger than 5 hours and an amplitude of 7% to 10% in the Js band. The team found that the variability is likely driven by an inhomogeneous cloud cover. Later the rotational velocity helped to constrain the inclination to >29° and the rotation period to 5-10.2 hours. Later PSO J318.5-22 was observed simultaneously with Hubble WFC3 and Spitzer IRAC. This helped to narrow down the rotation period to 8.6 ± 0.1 hours and the inclination to 56.2 ± 8.1°. The amplitude is 3.4 ± 0.1% for Spitzer channel 2 (4.5 μm) and 4.4-5.8% for WFC3 (1.07-1.67 μm). The near-infrared and mid-infrared light curves have a phase offset between 200° and 210°, likely due to a depth-dependent longitudinal atmospheric structure. The clouds are suspected to be a patchy haze layer over thick iron clouds. This patchy haze layer could be made of sodium sulfide, chromium or manganese sulfide. Another group did observe PSO J318.5-22 with the NTT Js and Ks-band and found a rotation period of 8.45 ± 0.05 hours and an amplitude of 2.4 ± 0.2 % in Js and 0.48 ± 0.08 % in Ks. Estimated temperatures inside its clouds exceed {{convert|800|C|K|abbr=on|order=flip|sigfig=2}}. The clouds, made of hot dust and molten iron, show how widespread clouds are in planets and planet-like objects. However, by 2020, modeling showed that the brightness variability could not be unambiguously attributed to clouds.

Current theories about such objects include the possibility that gravitational perturbations may have kicked them out of their planetary systems soon after they formed through planetary accretion, or they may have been formed by some other means.

• CFBDSIR 2149−0403
• 2MASS J1119–1137
• OTS 44
• Cha 110913−773444
• CWISE J0506+0738
• Jupiter

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{{2013 in space}}

{{Capricornus}}

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Category:Exoplanets discovered in 2013

Category:Rogue planets

Category:WISE objects

J21140802-2251358

Category:Beta Pictoris moving group

Category:Capricornus

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