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A bimodal distribution of haze in Pluto's atmosphere

Space Sciences

A bimodal distribution of haze in Pluto's atmosphere

S. Fan, P. Gao, et al.

Discover the exciting findings of atmospheric haze formation on Pluto, Titan, and Triton, as uncovered by researchers Siteng Fan, Peter Gao, Xi Zhang, and colleagues. This paper reveals a bimodal haze particle distribution in Pluto's atmosphere, providing crucial insights into photochemical origins of haze in these icy worlds, reshaping our understanding of extraterrestrial environments!... show more
Abstract
Pluto, Titan, and Triton make up a unique class of solar system bodies, with icy surfaces and chemically reducing atmospheres rich in organic photochemistry and haze formation. Hazes play important roles in these atmospheres, with physical and chemical processes highly dependent on particle sizes, but the haze size distribution in reducing atmospheres is currently poorly understood. Here we report observational evidence that Pluto's haze particles are bimodally distributed, which successfully reproduces the full phase scattering observations from New Horizons. Combined with previous simulations of Titan's haze, this result suggests that haze particles in reducing atmospheres undergo rapid shape change near pressure levels ~0.5 Pa and favors a photochemical rather than a dynamical origin for the formation of Titan's detached haze. It also demonstrates that both oxidizing and reducing atmospheres can produce multi-modal hazes, and encourages reanalysis of observations of hazes on Titan and Triton.
Publisher
Nature Communications
Published On
Jan 11, 2022
Authors
Siteng Fan, Peter Gao, Xi Zhang, Danica J. Adams, Nicholas W. Kutsop, Carver J. Bierson, Chao Liu, Jiani Yang, Leslie A. Young, Andrew F. Cheng, Yuk L. Yung
DOI
https://doi.org/10.1038/s41467-021-27811-6
Tags
Pluto
Titan
Triton
haze particles
photochemistry
atmospheric science
multimodal distribution

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