JWST-IPA: Chemical Inventory and Spatial Mapping of Ices in the Protostar HOPS 370—Evidence for an Opacity Hole and Thermal Processing of Ices

Himanshu Tyagi; P. Manoj; Mayank Narang; S. Thomas Megeath; Will R.M. Rocha; Nashanty Brunken; Adam E. Rubinstein; Robert Gutermuth; Neal J. Evans; Ewine F. Van Dishoeck; Samuel Federman; Dan M. Watson; David A. Neufeld; Guillem Anglada; Henrik Beuther; Alessio Caratti o Garatti; Leslie W. Looney; Pooneh Nazari; Mayra Osorio; Thomas Stanke; Yao Lun Yang; Tyler L. Bourke; William J. Fischer; Elise Furlan; Joel Green; Nolan Habel; Pamela Klaassen; Nicole Karnath; Hendrik Linz; James Muzerolle; John J. Tobin; Prabhani Atnagulov; Rohan Rahatgaonkar; Patrick Sheehan; Katerina Slavicinska; Amelia M. Stutz; Lukasz Tychoniec; Scott Wolk; Wafa Zakri

doi:10.3847/1538-4357/adb71f

JWST-IPA: Chemical Inventory and Spatial Mapping of Ices in the Protostar HOPS 370—Evidence for an Opacity Hole and Thermal Processing of Ices

Himanshu Tyagi, P. Manoj, Mayank Narang, S. Thomas Megeath, Will R.M. Rocha, Nashanty Brunken, Adam E. Rubinstein, Robert Gutermuth, Neal J. Evans, Ewine F. Van Dishoeck, Samuel Federman, Dan M. Watson, David A. Neufeld, Guillem Anglada, Henrik Beuther, Alessio Caratti o Garatti, Leslie W. Looney, Pooneh Nazari, Mayra Osorio, Thomas StankeYao Lun Yang, Tyler L. Bourke, William J. Fischer, Elise Furlan, Joel Green, Nolan Habel, Pamela Klaassen, Nicole Karnath, Hendrik Linz, James Muzerolle, John J. Tobin, Prabhani Atnagulov, Rohan Rahatgaonkar, Patrick Sheehan, Katerina Slavicinska, Amelia M. Stutz, Lukasz Tychoniec, Scott Wolk, Wafa Zakri

Astronomy

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Abstract

The composition of protoplanetary disks, and hence the initial conditions of planet formation, may be strongly influenced by the infall and thermal processing of material during the protostellar phase. The composition of dust and ice in protostellar envelopes, shaped by energetic processes driven by the protostar, serves as the fundamental building material for planets and complex organic molecules. As part of the JWST General Observers program, “Investigating Protostellar Accretion,” we observed an intermediate-mass protostar HOPS 370 (OMC2-FIR3) using NIRSpec integral field unit and Mid-Infrared Instrument medium-resolution spectroscopy. This study presents the gas and ice phase chemical inventory revealed with the JWST in the spectral range of ∼2.9-28 μm and explores the spatial variation of volatile ice species in the protostellar envelope. We find evidence for the thermal processing of ice species throughout the inner envelope. We present the first high-spatial resolution (∼80 au) maps of key volatile ice species H₂O, CO₂ ¹³CO₂, CO, and OCN⁻, which reveal a highly structured and inhomogeneous density distribution of the protostellar envelope, with a deficiency of ice column density that coincides with the jet/outflow shocked knots. Further, we observe high relative crystallinity of H₂O ice around the shocked knot seen in the H₂ and OH wind/outflow, which can be explained by a lack of outer colder material in the envelope along the line of sight due to the irregular structure of the envelope. These observations show clear evidence of thermal processing of the ices in the inner envelope, close to the outflow cavity walls, heated by the luminous protostar.

Original language	English (US)
Article number	110
Journal	Astrophysical Journal
Volume	983
Issue number	2
Early online date	Apr 11 2025
DOIs	https://doi.org/10.3847/1538-4357/adb71f
State	Published - Apr 20 2025

ASJC Scopus subject areas

Astronomy and Astrophysics
Space and Planetary Science

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Tyagi, H., Manoj, P., Narang, M., Megeath, S. T., Rocha, W. R. M., Brunken, N., Rubinstein, A. E., Gutermuth, R., Evans, N. J., Van Dishoeck, E. F., Federman, S., Watson, D. M., Neufeld, D. A., Anglada, G., Beuther, H., Caratti o Garatti, A., Looney, L. W., Nazari, P., Osorio, M., ... Zakri, W. (2025). JWST-IPA: Chemical Inventory and Spatial Mapping of Ices in the Protostar HOPS 370—Evidence for an Opacity Hole and Thermal Processing of Ices. Astrophysical Journal, 983(2), Article 110. https://doi.org/10.3847/1538-4357/adb71f

Tyagi, H, Manoj, P, Narang, M, Megeath, ST, Rocha, WRM, Brunken, N, Rubinstein, AE, Gutermuth, R, Evans, NJ, Van Dishoeck, EF, Federman, S, Watson, DM, Neufeld, DA, Anglada, G, Beuther, H, Caratti o Garatti, A, Looney, LW, Nazari, P, Osorio, M, Stanke, T, Yang, YL, Bourke, TL, Fischer, WJ, Furlan, E, Green, J, Habel, N, Klaassen, P, Karnath, N, Linz, H, Muzerolle, J, Tobin, JJ, Atnagulov, P, Rahatgaonkar, R, Sheehan, P, Slavicinska, K, Stutz, AM, Tychoniec, L, Wolk, S & Zakri, W 2025, 'JWST-IPA: Chemical Inventory and Spatial Mapping of Ices in the Protostar HOPS 370—Evidence for an Opacity Hole and Thermal Processing of Ices', Astrophysical Journal, vol. 983, no. 2, 110. https://doi.org/10.3847/1538-4357/adb71f

@article{5f6a5a4b58b04ca9ac5c5c083eebb449,

title = "JWST-IPA: Chemical Inventory and Spatial Mapping of Ices in the Protostar HOPS 370—Evidence for an Opacity Hole and Thermal Processing of Ices",

abstract = "The composition of protoplanetary disks, and hence the initial conditions of planet formation, may be strongly influenced by the infall and thermal processing of material during the protostellar phase. The composition of dust and ice in protostellar envelopes, shaped by energetic processes driven by the protostar, serves as the fundamental building material for planets and complex organic molecules. As part of the JWST General Observers program, “Investigating Protostellar Accretion,” we observed an intermediate-mass protostar HOPS 370 (OMC2-FIR3) using NIRSpec integral field unit and Mid-Infrared Instrument medium-resolution spectroscopy. This study presents the gas and ice phase chemical inventory revealed with the JWST in the spectral range of ∼2.9-28 μm and explores the spatial variation of volatile ice species in the protostellar envelope. We find evidence for the thermal processing of ice species throughout the inner envelope. We present the first high-spatial resolution (∼80 au) maps of key volatile ice species H2O, CO2 13CO2, CO, and OCN−, which reveal a highly structured and inhomogeneous density distribution of the protostellar envelope, with a deficiency of ice column density that coincides with the jet/outflow shocked knots. Further, we observe high relative crystallinity of H2O ice around the shocked knot seen in the H2 and OH wind/outflow, which can be explained by a lack of outer colder material in the envelope along the line of sight due to the irregular structure of the envelope. These observations show clear evidence of thermal processing of the ices in the inner envelope, close to the outflow cavity walls, heated by the luminous protostar.",

author = "Himanshu Tyagi and P. Manoj and Mayank Narang and Megeath, {S. Thomas} and Rocha, {Will R.M.} and Nashanty Brunken and Rubinstein, {Adam E.} and Robert Gutermuth and Evans, {Neal J.} and {Van Dishoeck}, {Ewine F.} and Samuel Federman and Watson, {Dan M.} and Neufeld, {David A.} and Guillem Anglada and Henrik Beuther and {Caratti o Garatti}, Alessio and Looney, {Leslie W.} and Pooneh Nazari and Mayra Osorio and Thomas Stanke and Yang, {Yao Lun} and Bourke, {Tyler L.} and Fischer, {William J.} and Elise Furlan and Joel Green and Nolan Habel and Pamela Klaassen and Nicole Karnath and Hendrik Linz and James Muzerolle and Tobin, {John J.} and Prabhani Atnagulov and Rohan Rahatgaonkar and Patrick Sheehan and Katerina Slavicinska and Stutz, {Amelia M.} and Lukasz Tychoniec and Scott Wolk and Wafa Zakri",

note = "The authors thank the anonymous referee for the constructive feedback and suggestions that improved the clarity and quality of the manuscript. This work is based on observations made with the NASA/ESA/CSA James Webb Space Telescope. The data were obtained from the Mikulski Archive for Space Telescopes at the Space Telescope Science Institute, which is operated by the Association of Universities for Research in Astronomy, Inc., under NASA contract NAS 5-03127 for JWST. These observations are associated with program #1802. H.T. and P.M. acknowledge the support of the Department of Atomic Energy, Government of India, under Project Identification No. RTI 4002. Support for SF, AER, STM, RG, WF, JG, JJT, and DW in program #1802 was provided by NASA through a grant from the Space Telescope Science Institute, which is operated by the Association of Universities for Research in Astronomy, Inc., under NASA contract NAS 5-03127. D.A.N. was supported by grant SOF08-0038 from USRA. A.C.G. has been supported by PRIN-MUR 2022 20228JPA3A \u201CThe path to star and planet formation in the JWST era (PATH)\u201D and by INAF-GoG 2022 \u201CNIR-dark Accretion Outbursts in Massive Young stellar objects (NAOMY)\u201D. G.A. and M.O., acknowledge financial support from grants PID2020-114461GB-I00, PID2023-146295NB-I00 and CEX2021-001131-S, funded by MCIN/AEI/10.13039/501100011033. Y.-L.Y. acknowledges support from Grant-in-Aid from the Ministry of Education, Culture, Sports, Science, and Technology of Japan (20H05845, 20H05844, 22K20389), and a pioneering project in RIKEN (Evolution of Matter in the Universe). Leiden Astrochemistry thanks support from the European Research Council (ERC) under the European Union\u2019s Horizon 2020 research and innovation program (grant agreement No. 101019751 MOLDISK). A.S. gratefully acknowledges support by the Fondecyt Regular (project code 1220610), and ANID BASAL project FB210003. P. N. acknowledges support from the ESO Fellowship and IAU Gruber Foundation Fellowship programs.",

year = "2025",

month = apr,

day = "20",

doi = "10.3847/1538-4357/adb71f",

language = "English (US)",

volume = "983",

journal = "Astrophysical Journal",

issn = "0004-637X",

publisher = "American Astronomical Society",

number = "2",

}

TY - JOUR

T1 - JWST-IPA

T2 - Chemical Inventory and Spatial Mapping of Ices in the Protostar HOPS 370—Evidence for an Opacity Hole and Thermal Processing of Ices

AU - Tyagi, Himanshu

AU - Manoj, P.

AU - Narang, Mayank

AU - Megeath, S. Thomas

AU - Rocha, Will R.M.

AU - Brunken, Nashanty

AU - Rubinstein, Adam E.

AU - Gutermuth, Robert

AU - Evans, Neal J.

AU - Van Dishoeck, Ewine F.

AU - Federman, Samuel

AU - Watson, Dan M.

AU - Neufeld, David A.

AU - Anglada, Guillem

AU - Beuther, Henrik

AU - Caratti o Garatti, Alessio

AU - Looney, Leslie W.

AU - Nazari, Pooneh

AU - Osorio, Mayra

AU - Stanke, Thomas

AU - Yang, Yao Lun

AU - Bourke, Tyler L.

AU - Fischer, William J.

AU - Furlan, Elise

AU - Green, Joel

AU - Habel, Nolan

AU - Klaassen, Pamela

AU - Karnath, Nicole

AU - Linz, Hendrik

AU - Muzerolle, James

AU - Tobin, John J.

AU - Atnagulov, Prabhani

AU - Rahatgaonkar, Rohan

AU - Sheehan, Patrick

AU - Slavicinska, Katerina

AU - Stutz, Amelia M.

AU - Tychoniec, Lukasz

AU - Wolk, Scott

AU - Zakri, Wafa

N1 - The authors thank the anonymous referee for the constructive feedback and suggestions that improved the clarity and quality of the manuscript. This work is based on observations made with the NASA/ESA/CSA James Webb Space Telescope. The data were obtained from the Mikulski Archive for Space Telescopes at the Space Telescope Science Institute, which is operated by the Association of Universities for Research in Astronomy, Inc., under NASA contract NAS 5-03127 for JWST. These observations are associated with program #1802. H.T. and P.M. acknowledge the support of the Department of Atomic Energy, Government of India, under Project Identification No. RTI 4002. Support for SF, AER, STM, RG, WF, JG, JJT, and DW in program #1802 was provided by NASA through a grant from the Space Telescope Science Institute, which is operated by the Association of Universities for Research in Astronomy, Inc., under NASA contract NAS 5-03127. D.A.N. was supported by grant SOF08-0038 from USRA. A.C.G. has been supported by PRIN-MUR 2022 20228JPA3A \u201CThe path to star and planet formation in the JWST era (PATH)\u201D and by INAF-GoG 2022 \u201CNIR-dark Accretion Outbursts in Massive Young stellar objects (NAOMY)\u201D. G.A. and M.O., acknowledge financial support from grants PID2020-114461GB-I00, PID2023-146295NB-I00 and CEX2021-001131-S, funded by MCIN/AEI/10.13039/501100011033. Y.-L.Y. acknowledges support from Grant-in-Aid from the Ministry of Education, Culture, Sports, Science, and Technology of Japan (20H05845, 20H05844, 22K20389), and a pioneering project in RIKEN (Evolution of Matter in the Universe). Leiden Astrochemistry thanks support from the European Research Council (ERC) under the European Union\u2019s Horizon 2020 research and innovation program (grant agreement No. 101019751 MOLDISK). A.S. gratefully acknowledges support by the Fondecyt Regular (project code 1220610), and ANID BASAL project FB210003. P. N. acknowledges support from the ESO Fellowship and IAU Gruber Foundation Fellowship programs.

PY - 2025/4/20

Y1 - 2025/4/20

N2 - The composition of protoplanetary disks, and hence the initial conditions of planet formation, may be strongly influenced by the infall and thermal processing of material during the protostellar phase. The composition of dust and ice in protostellar envelopes, shaped by energetic processes driven by the protostar, serves as the fundamental building material for planets and complex organic molecules. As part of the JWST General Observers program, “Investigating Protostellar Accretion,” we observed an intermediate-mass protostar HOPS 370 (OMC2-FIR3) using NIRSpec integral field unit and Mid-Infrared Instrument medium-resolution spectroscopy. This study presents the gas and ice phase chemical inventory revealed with the JWST in the spectral range of ∼2.9-28 μm and explores the spatial variation of volatile ice species in the protostellar envelope. We find evidence for the thermal processing of ice species throughout the inner envelope. We present the first high-spatial resolution (∼80 au) maps of key volatile ice species H2O, CO2 13CO2, CO, and OCN−, which reveal a highly structured and inhomogeneous density distribution of the protostellar envelope, with a deficiency of ice column density that coincides with the jet/outflow shocked knots. Further, we observe high relative crystallinity of H2O ice around the shocked knot seen in the H2 and OH wind/outflow, which can be explained by a lack of outer colder material in the envelope along the line of sight due to the irregular structure of the envelope. These observations show clear evidence of thermal processing of the ices in the inner envelope, close to the outflow cavity walls, heated by the luminous protostar.

AB - The composition of protoplanetary disks, and hence the initial conditions of planet formation, may be strongly influenced by the infall and thermal processing of material during the protostellar phase. The composition of dust and ice in protostellar envelopes, shaped by energetic processes driven by the protostar, serves as the fundamental building material for planets and complex organic molecules. As part of the JWST General Observers program, “Investigating Protostellar Accretion,” we observed an intermediate-mass protostar HOPS 370 (OMC2-FIR3) using NIRSpec integral field unit and Mid-Infrared Instrument medium-resolution spectroscopy. This study presents the gas and ice phase chemical inventory revealed with the JWST in the spectral range of ∼2.9-28 μm and explores the spatial variation of volatile ice species in the protostellar envelope. We find evidence for the thermal processing of ice species throughout the inner envelope. We present the first high-spatial resolution (∼80 au) maps of key volatile ice species H2O, CO2 13CO2, CO, and OCN−, which reveal a highly structured and inhomogeneous density distribution of the protostellar envelope, with a deficiency of ice column density that coincides with the jet/outflow shocked knots. Further, we observe high relative crystallinity of H2O ice around the shocked knot seen in the H2 and OH wind/outflow, which can be explained by a lack of outer colder material in the envelope along the line of sight due to the irregular structure of the envelope. These observations show clear evidence of thermal processing of the ices in the inner envelope, close to the outflow cavity walls, heated by the luminous protostar.

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UR - http://www.scopus.com/inward/citedby.url?scp=105002746519&partnerID=8YFLogxK

U2 - 10.3847/1538-4357/adb71f

DO - 10.3847/1538-4357/adb71f

M3 - Article

AN - SCOPUS:105002746519

SN - 0004-637X

VL - 983

JO - Astrophysical Journal

JF - Astrophysical Journal

IS - 2

M1 - 110

ER -

JWST-IPA: Chemical Inventory and Spatial Mapping of Ices in the Protostar HOPS 370—Evidence for an Opacity Hole and Thermal Processing of Ices

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