The Sonora Substellar Atmosphere Models VI. Red Diamondback: Extending Diamondback with SPHINX for Brown Dwarf Early Evolution
Abstract
We extend the Sonora Diamondback brown dwarf evolution models to higher effective temperatures to treat the evolution of younger, higher mass objects. Due to an upper temperature limit of Teff=2400 K in the original Sonora Diamondback model grid, high mass objects (M≥ 0.05 M= 52.4 MJ) were limited to ages of 100 Myr. To include the early evolution of brown dwarfs at Teff> 2400 K, we use existing and new SPHINX cloud-free model atmosphere calculations of temperature structures of M-type atmospheres. These atmospheres range from Teff 2000--4000 K, log(g) 3.0--5.5, and metallicity [M/H] -0.5 to +0.5. This combination of Diamondback and SPHINX atmospheres, with a transition across Teff 2000--2400 K, allows us to calculate evolution tracks, and infrared photometry and colors, for ages > 1 Myr and masses from above the hydrogen burning minimum mass down to planetary masses. The Hayashi phase of massive brown dwarf evolution (ages < 10--100 Myr) at low surface gravity leads to nearly constant Teff values, at effective temperatures much lower than would be obtained from simply extrapolating backwards from evolution tracks at older ages.
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