Characterizing the chemical pathways for water formation - a deep search for hydrogen peroxide
Journal article, 2014

In 2011, hydrogen peroxide (HOOH) was observed for the first time outside the solar system (Bergman et al., Astron. Astrophys., 2011, 531, L8). This detection appeared a posteriori to be quite natural, as HOOH is an intermediate product in the formation of water on the surface of dust grains. Following up on this detection, we present a search for HOOH in a diverse sample of sources in different environments, including low-mass protostars and regions with very high column densities, such as Infrared Dark Clouds (IRDCs). We do not detect the molecule in any other source than Oph A, and derive 3s upper limits for the abundance of HOOH relative to H-2 lower than that in Oph A for most sources. This result sheds a different light on our understanding of the detection of HOOH in Oph A, and shifts the question of why this source seems to be special. Therefore we rediscuss the detection of HOOH in Oph A, as well as the implications of the low abundance of HOOH, and its similarity with the case of O-2. Our chemical models show that the production of HOOH is extremely sensitive to temperature, and is favored only in the range 20-30 K. The relatively high abundance of HOOH observed in Oph A suggests that the bulk of the material lies at a temperature in the range 20-30 K.

GALACTIC-CENTER

RHO-OPHIUCHI

ORGANIC-MOLECULES

NGC 6334 I

STAR-FORMING REGIONS

OPHIUCHI MAIN CLOUD

INFRARED DARK CLOUDS

DENSE INTERSTELLAR CLOUDS

LOW-MASS PROTOSTARS

INITIAL CONDITIONS

Author

B. Parise

Max Planck Society

Cardiff University

Per Bergman

Chalmers, Earth and Space Sciences, Onsala Space Observatory

K. Menten

Max Planck Society

Faraday Discussions

1359-6640 (ISSN) 1364-5498 (eISSN)

Vol. 168 349-367

Subject Categories

Physical Chemistry

DOI

10.1039/c3fd00115f

More information

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9/6/2018 7