Hot water in the Inner 100 AU of the Class 0 protostar NGC 1333 IRAS2A

Ruud Visser; Jes Kristian Jørgensen; Lars E. Kristensen; Ewine F. van Dishoeck; Edwin A. Bergin

doi:10.1088/0004-637X/769/1/19

Hot water in the Inner 100 AU of the Class 0 protostar NGC 1333 IRAS2A

Ruud Visser, Jes Kristian Jørgensen, Lars E. Kristensen, Ewine F. van Dishoeck, Edwin A. Bergin

Astrofysik og Planetforskning

23 Citationer (Scopus)

Abstract

Evaporation of water ice above 100 K in the inner few 100 AU of low-mass embedded protostars (the so-called hot core) should produce quiescent water vapor abundances of ∼10^-4 relative to H₂. Observational evidence so far points at abundances of only a few 10 ^-6. However, these values are based on spherical models, which are known from interferometric studies to be inaccurate on the relevant spatial scales. Are hot cores really that much drier than expected, or are the low abundances an artifact of the inaccurate physical models? We present deep velocity-resolved Herschel-HIFI spectra of the 3₁₂-3₀₃ lines of HO and HO (1097 GHz, E_u/k = 249 K) in the low-mass Class 0 protostar NGC 1333 IRAS2A. A spherical radiative transfer model with a power-law density profile is unable to reproduce both the HIFI data and existing interferometric data on the HO 3₁₃-2₂₀ line (203 GHz, E_u/k = 204 K). Instead, the HIFI spectra likely show optically thick emission from a hot core with a radius of about 100 AU. The mass of the hot core is estimated from the C¹⁸O J = 9-8 and 10-9 lines. We derive a lower limit to the hot water abundance of 2 × 10^-5, consistent with the theoretical predictions of ∼10^-4. The revised HDO/H ₂O abundance ratio is 1 × 10^-3, an order of magnitude lower than previously estimated.

Originalsprog	Engelsk
Artikelnummer	19
Tidsskrift	The Astrophysical Journal
Vol/bind	769
Udgave nummer	1
Antal sider	11
ISSN	0004-637X
DOI	https://doi.org/10.1088/0004-637X/769/1/19
Status	Udgivet - 20 maj 2013

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10.1088/0004-637X/769/1/19

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abstract = "Evaporation of water ice above 100 K in the inner few 100 AU of low-mass embedded protostars (the so-called hot core) should produce quiescent water vapor abundances of ∼10-4 relative to H2. Observational evidence so far points at abundances of only a few 10 -6. However, these values are based on spherical models, which are known from interferometric studies to be inaccurate on the relevant spatial scales. Are hot cores really that much drier than expected, or are the low abundances an artifact of the inaccurate physical models? We present deep velocity-resolved Herschel-HIFI spectra of the 312-303 lines of HO and HO (1097 GHz, Eu/k = 249 K) in the low-mass Class 0 protostar NGC 1333 IRAS2A. A spherical radiative transfer model with a power-law density profile is unable to reproduce both the HIFI data and existing interferometric data on the HO 313-220 line (203 GHz, Eu/k = 204 K). Instead, the HIFI spectra likely show optically thick emission from a hot core with a radius of about 100 AU. The mass of the hot core is estimated from the C18O J = 9-8 and 10-9 lines. We derive a lower limit to the hot water abundance of 2 × 10-5, consistent with the theoretical predictions of ∼10-4. The revised HDO/H 2O abundance ratio is 1 × 10-3, an order of magnitude lower than previously estimated.",

keywords = "astrochemistry, circumstellar matter, stars: formation, stars: protostars, techniques: spectroscopic",

author = "Ruud Visser and J{\o}rgensen, {Jes Kristian} and Kristensen, {Lars E.} and {van Dishoeck}, {Ewine F.} and Bergin, {Edwin A.}",

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AU - Visser, Ruud

AU - Jørgensen, Jes Kristian

AU - Kristensen, Lars E.

AU - van Dishoeck, Ewine F.

AU - Bergin, Edwin A.

PY - 2013/5/20

Y1 - 2013/5/20

N2 - Evaporation of water ice above 100 K in the inner few 100 AU of low-mass embedded protostars (the so-called hot core) should produce quiescent water vapor abundances of ∼10-4 relative to H2. Observational evidence so far points at abundances of only a few 10 -6. However, these values are based on spherical models, which are known from interferometric studies to be inaccurate on the relevant spatial scales. Are hot cores really that much drier than expected, or are the low abundances an artifact of the inaccurate physical models? We present deep velocity-resolved Herschel-HIFI spectra of the 312-303 lines of HO and HO (1097 GHz, Eu/k = 249 K) in the low-mass Class 0 protostar NGC 1333 IRAS2A. A spherical radiative transfer model with a power-law density profile is unable to reproduce both the HIFI data and existing interferometric data on the HO 313-220 line (203 GHz, Eu/k = 204 K). Instead, the HIFI spectra likely show optically thick emission from a hot core with a radius of about 100 AU. The mass of the hot core is estimated from the C18O J = 9-8 and 10-9 lines. We derive a lower limit to the hot water abundance of 2 × 10-5, consistent with the theoretical predictions of ∼10-4. The revised HDO/H 2O abundance ratio is 1 × 10-3, an order of magnitude lower than previously estimated.

AB - Evaporation of water ice above 100 K in the inner few 100 AU of low-mass embedded protostars (the so-called hot core) should produce quiescent water vapor abundances of ∼10-4 relative to H2. Observational evidence so far points at abundances of only a few 10 -6. However, these values are based on spherical models, which are known from interferometric studies to be inaccurate on the relevant spatial scales. Are hot cores really that much drier than expected, or are the low abundances an artifact of the inaccurate physical models? We present deep velocity-resolved Herschel-HIFI spectra of the 312-303 lines of HO and HO (1097 GHz, Eu/k = 249 K) in the low-mass Class 0 protostar NGC 1333 IRAS2A. A spherical radiative transfer model with a power-law density profile is unable to reproduce both the HIFI data and existing interferometric data on the HO 313-220 line (203 GHz, Eu/k = 204 K). Instead, the HIFI spectra likely show optically thick emission from a hot core with a radius of about 100 AU. The mass of the hot core is estimated from the C18O J = 9-8 and 10-9 lines. We derive a lower limit to the hot water abundance of 2 × 10-5, consistent with the theoretical predictions of ∼10-4. The revised HDO/H 2O abundance ratio is 1 × 10-3, an order of magnitude lower than previously estimated.

KW - astrochemistry

KW - circumstellar matter

KW - stars: formation

KW - stars: protostars

KW - techniques: spectroscopic

U2 - 10.1088/0004-637X/769/1/19

DO - 10.1088/0004-637X/769/1/19

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SN - 0004-637X

VL - 769

JO - Astrophysical Journal

JF - Astrophysical Journal

IS - 1

M1 - 19

ER -

Hot water in the Inner 100 AU of the Class 0 protostar NGC 1333 IRAS2A

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