Globules and pillars in Cygnus X III. Herschel and upGREAT/SOFIA   far-infrared spectroscopy of the globule IRAS 20319+3958 inCygnus X

N. Schneider (1); M. Roellig (1); E.T. Polehampton (2); F. Comeron; (3); A.A. Djupvik (4,5); Z. Makai (1,6); C. Buchbender (1); R. Simon (1); S.; Bontemps (7); R. Guesten (8); G. White (2,9); Y. Okada (1); A. Parikka (10),; N. Rothbart (11) ((1) I. Physik. Institut; University of Cologne; Germany,; (2) RAL Space; STFC Rutherford Appleton Laboratory; UK; (3) ESO; Garching,; Germany; (4) NOT; Spain; (5) Department of Physics; Astronomy; Aarhus; University; Denmark; (6) Department of Physics; Astronomy; West Virginia; University; USA; (7) LAB; Universite de Bordeaux; CNRS; France; (8) MPIfR; Bonn; Germany; (9) Department of Physics; Astronomy; The Open University,; UK; (10) SOFIA-USRA; NASA Ames Research Center; USA; (11) DLR,; Berlin-Adlershof; Germany)

arXiv:2108.10768·astro-ph.GA·September 22, 2021

Globules and pillars in Cygnus X III. Herschel and upGREAT/SOFIA far-infrared spectroscopy of the globule IRAS 20319+3958 inCygnus X

N. Schneider (1), M. Roellig (1), E.T. Polehampton (2), F. Comeron, (3), A.A. Djupvik (4,5), Z. Makai (1,6), C. Buchbender (1), R. Simon (1), S., Bontemps (7), R. Guesten (8), G. White (2,9), Y. Okada (1), A. Parikka (10),, N. Rothbart (11) ((1) I. Physik. Institut

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TL;DR

This study uses Herschel and SOFIA far-infrared spectroscopy to analyze the physical conditions and structure of the unique free-floating globule IRAS 20319+3958 in Cygnus X, revealing rotation, internal UV sources, and external illumination effects.

Contribution

It provides the first detailed FIR line mapping and PDR modeling of a rare free-floating globule with an internal HII region, highlighting the influence of external UV fields.

Findings

01

The globule is likely rotating.

02

High-velocity CII emission is near the Herbig Be star.

03

External UV from Cyg OB2 dominates the CII emission.

Abstract

IRAS 20319+3958 in Cygnus X South is a rare example of a free-floating globule (mass ~240 Msun, length ~1.5 pc) with an internal HII region created by the stellar feedback of embedded intermediate-mass stars, in particular, one Herbig Be star. Here, we present a Herschel/HIFI CII 158 mu map of the whole globule and a large set of other FIR lines (mid-to high-J CO lines observed with Herschel/PACS and SPIRE, the OI 63 mu line and the CO 16-15 line observed with upGREAT on SOFIA), covering the globule head and partly a position in the tail. The CII map revealed that the whole globule is probably rotating. Highly collimated, high-velocity CII emission is detected close to the Herbig Be star. We performed a PDR analysis using the KOSMA-tau PDR code for one position in the head and one in the tail. The observed FIR lines in the head can be reproduced with a two-component model: an extended,…

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