- Names
-
- L. Gavilan
- L. Broch
- N. Carrasco
- B. Fleury
- L. Vettier
- Title
- Organic Aerosols in the Presence of CO$_2$ in the Early Earth and Exoplanets: UV-Vis Refractive Indices of Oxidized Tholins
- Abstract
- In this experimental study we investigate the role of atmospheric CO$_2$ on the optical properties of organic photochemical aerosols. To this end, we add CO$_2$ to a N$_2$:CH$_4$ gas mixture used in a plasma typically used for Titan studies. We produce organic thin films (tholins) in plasmas where the CO$_2$/CH$_4$ ratio is increased from 0 to 4. We measure these films via spectrometric ellipsometry and apply a Tauc-Lorentz model, used for optically transparent materials, to obtain the thickness of the thin film, its optical band gap, and the refractive indices in the UV-visible (270-600 nm). All samples present a significant absorption band in the UV. According to the Tauc-Lorentz model, as the CO$_2$/CH$_4$ ratio is quadrupled, the position of the UV band is shifted from \tilde177 nm to 264 nm while its strength is quadrupled. Consequently, we infer that oxidized organic aerosols absorb more efficiently at longer UV wavelengths than reduced aerosols. Our laboratory wavelength-tabulated UV-vis refractive indices provide new constraints to atmospheric models of the early Earth and Earth-like exoplanets including photochemical hazes formed under increasingly oxidizing conditions.
- Keywords
- spectroscopy, UV, visible, ellipsometry, optical constants spectra, tholins, atmosphere, Earth, exoplanets
- Content
- sample, spectral data, planetary sciences
- Year
- 2017
- Journal
- The Astrophysical Journal Letters
- Volume
- 848
- Pages
- L5
- Pages number
- 4
- Document type
- article
- Publication state
- published
- Comments
- None
- Doi
- 10.3847/2041-8213/aa8cc4
- Identifiers
-
- bibcode: 2017ApJ...848L...5G