JWST Transit Spectra. II. Constraining Aerosol Species, Particle-size Distributions, Temperature, and Metallicity for Cloudy Exoplanets

被引:12
作者
Lacy, Brianna I. [1 ]
Burrows, Adam [1 ]
机构
[1] Princeton Univ, Peyton Hall,Ivy Lane, Princeton, NJ 08544 USA
基金
美国国家航空航天局;
关键词
Exoplanet atmospheres; Exoplanet atmospheric composition; Exoplanets; OPTICAL-PROPERTIES; TRANSMISSION SPECTRA; SUPER-EARTH; BROWN DWARF; ATMOSPHERE; ABUNDANCES; OPACITIES; CONSTANTS; !text type='PYTHON']PYTHON[!/text; MODEL;
D O I
10.3847/1538-4357/abbc6c
中图分类号
P1 [天文学];
学科分类号
0704 ;
摘要
The James Webb Space Telescope (JWST) will provide moderate-resolution transit spectra with continuous wavelength coverage from the optical to the mid-infrared for the first time. In this paper, we illustrate how different aerosol species, size distributions, and spatial distributions encode information in the JWST transit spectra of warm exoplanets. We use the transit spectral modeling code METIS, along with Mie theory and several flexible treatments of aerosol size and spatial distributions to perform parameter sensitivity studies, calculate transit contribution functions, compute Jacobians, and retrieve parameters from simulated data. The broader wavelength coverage of the JWST can encompass enough non-gray aerosol behavior to recover information about the species and size distribution of particles under many feasible aerosol scenarios. Within the JWST wavelength range, the optical and mid-infrared typically provide information about 0.1-1 mu m sized aerosols, while the near-infrared to mid-infrared wavelengths usually provide information about gaseous absorption. Strong gaseous absorption features in the infrared can remain visible, even when clouds and hazes are flattening the optical and near-infrared portion of the spectrum that is currently observable. For some combinations of aerosol properties, temperature, and surface gravity, one can make a precise measure of metallicity despite the presence of aerosols, but more often the retrieved metallicity of a cloudy or hazy atmosphere has significantly lower precision than for a clear atmosphere with otherwise similar properties. Future efforts to securely link aerosol properties to atmospheric metallicity and temperature in a physically motivated manner will ultimately enable a robust physical understanding of the processes at play in cloudy, hazy exoplanet atmospheres.
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页数:43
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