Infrared Spectroscopic Survey of the Quiescent Medium of Nearby Clouds:   II. Ice Formation and Grain Growth in Perseus and Serpens

M.C.L. Madden (1); A.C.A. Boogert (2); J.E. Chiar (3); C. Knez (4),; Y.J. Pendleton (5); A.G.G.M. Tielens (6); A. Yip (7) ((1) Department of; Astronomy; Columbia University; New York; (2) Institute for Astronomy,; University of Hawaii at Manoa; Honolulu; (3) Diablo Valley College; Pleasant; Hill; (4) Department of Astronomy; University of Maryland; College Park; (5); NASA Ames Research Center; Moffett Field; (6) Johns Hopkins University,; Baltimore)

arXiv:2210.12672·astro-ph.GA·October 25, 2022

Infrared Spectroscopic Survey of the Quiescent Medium of Nearby Clouds: II. Ice Formation and Grain Growth in Perseus and Serpens

M.C.L. Madden (1), A.C.A. Boogert (2), J.E. Chiar (3), C. Knez (4),, Y.J. Pendleton (5), A.G.G.M. Tielens (6), A. Yip (7) ((1) Department of, Astronomy, Columbia University, New York, (2) Institute for Astronomy,, University of Hawaii at Manoa, Honolulu

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TL;DR

This study investigates dust evolution in nearby molecular clouds, revealing how ice formation and grain growth correlate with cloud density, and providing new insights into the physical processes during star formation.

Contribution

It presents detailed infrared spectra and analysis of dust properties, demonstrating the relationship between ice formation, grain growth, and cloud density in Perseus and Serpens.

Findings

01

Grain sizes up to ~0.5 micron increase with cloud density.

02

Ice formation occurs after initial grain growth.

03

Significant CH3OH ice detected in one target.

Abstract

The properties of dust change during the transition from diffuse to dense clouds as a result of ice formation and dust coagulation, but much is still unclear about this transformation. We present 2-20 micron spectra of 49 field stars behind the Perseus and Serpens Molecular Clouds and establish relationships between the near-infrared continuum extinction (AK) and the depths of the 9.7 micron silicate (tau97) and 3.0 micron H2O ice (tau30) absorption bands. The tau97/AK ratio varies from large, diffuse interstellar medium-like values (~0.55), to much lower ratios (~0.26). Above extinctions of AK~1.2 (AV~10; Perseus, Lupus, dense cores) and ~2.0 (AV~17; Serpens), the tau97/AK ratio is lowest. The tau97/AK reduction from diffuse to dense clouds is consistent with a moderate degree of grain growth (sizes up to ~0.5 micron), increasing the near-infrared color excess (and thus AK), but not…

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