TY - JOUR
T1 - Weather on Other Worlds. V. The Three Most Rapidly Rotating Ultra-cool Dwarfs
AU - Tannock, Megan E.
AU - Metchev, Stanimir
AU - Heinze, Aren
AU - Miles-Páez, Paulo A.
AU - Gagné, Jonathan
AU - Burgasser, Adam
AU - Marley, Mark S.
AU - Apai, Dániel
AU - Suárez, Genaro
AU - Plavchan, Peter
N1 - Publisher Copyright: © 2021. The American Astronomical Society. All rights reserved.
PY - 2021/5
Y1 - 2021/5
N2 - We present the discovery of rapid photometric variability in three ultra-cool dwarfs from long-duration monitoring with the Spitzer Space Telescope. The T7, L3.5, and L8 dwarfs have the shortest photometric periods known to date: 1.080-0.005+0.004 hr, 1.14-0.01+0.03 hr, and 1.23-0.01+0.01 hr, respectively. We confirm the rapid rotation through moderate-resolution infrared spectroscopy, which reveals projected rotational velocities between 79 and 104 km s-1. We compare the near-infrared spectra to photospheric models to determine the objects' fundamental parameters and radial velocities. We find that the equatorial rotational velocities for all three objects are ⪆100 km s-1. The three L and T dwarfs reported here are the most rapidly spinning and likely the most oblate field ultra-cool dwarfs known to date. Correspondingly, all three are excellent candidates for seeking auroral radio emission and net optical/infrared polarization. As of this writing, 78 L-, T-, and Y-dwarf rotation periods have now been measured. The clustering of the shortest rotation periods near 1 hr suggests that brown dwarfs are unlikely to spin much faster.
AB - We present the discovery of rapid photometric variability in three ultra-cool dwarfs from long-duration monitoring with the Spitzer Space Telescope. The T7, L3.5, and L8 dwarfs have the shortest photometric periods known to date: 1.080-0.005+0.004 hr, 1.14-0.01+0.03 hr, and 1.23-0.01+0.01 hr, respectively. We confirm the rapid rotation through moderate-resolution infrared spectroscopy, which reveals projected rotational velocities between 79 and 104 km s-1. We compare the near-infrared spectra to photospheric models to determine the objects' fundamental parameters and radial velocities. We find that the equatorial rotational velocities for all three objects are ⪆100 km s-1. The three L and T dwarfs reported here are the most rapidly spinning and likely the most oblate field ultra-cool dwarfs known to date. Correspondingly, all three are excellent candidates for seeking auroral radio emission and net optical/infrared polarization. As of this writing, 78 L-, T-, and Y-dwarf rotation periods have now been measured. The clustering of the shortest rotation periods near 1 hr suggests that brown dwarfs are unlikely to spin much faster.
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U2 - 10.3847/1538-3881/abeb67
DO - 10.3847/1538-3881/abeb67
M3 - Article
SN - 0004-6256
VL - 161
JO - Astronomical Journal
JF - Astronomical Journal
IS - 5
M1 - 224
ER -