Samuel A Beiler, M. Cushing, D. Kirkpatrick, A. Schneider, S. Mukherjee, M. Marley
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引用次数: 4
摘要
我们首次获得了Y矮星的JWST光谱能量分布。Y0矮星WISE J035934.06−540154.6的光谱能量分布由1-12 μm的低分辨率(λ/Δλ ~ 100)光谱和15、18和21 μm的三个测光点组成。光谱显示了H2O、CH4、CO、CO2和NH3的许多基本、泛音和组合旋转振动带,包括之前未发现的NH3在3 μm的ν 3波段。使用瑞利-牛仔裤尾巴来解释波长大于21 μm的通量,我们测量到的放热光度为1.523±0.090 × 1020 W。我们确定了一个半经验有效温度估计467−18+16 K使用热光度和进化模型来估计半径。最后,我们将光谱和光度法与大气模型网格进行比较,发现与T = 450 K, log g = 3.25 [cm s - 2]和[M/H] = - 0.3的模型有相当好的一致性。然而,低表面重力意味着极低的质量(1 M Jup)和非常年轻的年龄(20 Myr),后者与体积有限的冷褐矮星样本的模拟不一致。
The First JWST Spectral Energy Distribution of a Y Dwarf
We present the first JWST spectral energy distribution of a Y dwarf. This spectral energy distribution of the Y0 dwarf WISE J035934.06−540154.6 consists of low-resolution (λ/Δλ ∼100) spectroscopy from 1–12 μm and three photometric points at 15, 18, and 21 μm. The spectrum exhibits numerous fundamental, overtone, and combination rotational–vibrational bands of H2O, CH4, CO, CO2, and NH3, including the previously unidentified ν 3 band of NH3 at 3 μm. Using a Rayleigh–Jeans tail to account for the flux emerging at wavelengths greater than 21 μm, we measure a bolometric luminosity of 1.523 ± 0.090 × 1020 W. We determine a semiempirical effective temperature estimate of 467−18+16 K using the bolometric luminosity and evolutionary models to estimate a radius. Finally, we compare the spectrum and photometry to a grid of atmospheric models and find reasonably good agreement with a model having T eff = 450 K, log g = 3.25 [cm s−2], and [M/H] = −0.3. However, the low surface gravity implies an extremely low mass of 1 M Jup and a very young age of 20 Myr, the latter of which is inconsistent with simulations of volume-limited samples of cool brown dwarfs.
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