First results from the JWST Early Release Science Program Q3D: Benchmark   Comparison of Optical and Mid-IR Tracers of a Dusty, Ionized Red Quasar Wind   at z=0.435

D. S. N. Rupke (1); D. Wylezalek (2); N. L. Zakamska (3,4); S.; Veilleux (5); C. Bertemes (2); Y. Ishikawa (3); W. Liu (6); S. Sankar (3); A.; Vayner (3); H. X. G. Lim (1); R. McCrory (1); G. Murphree (1,7); L. Whitesell; (1); L. Shen (8,9); G. Liu (8); J. K. Barrera-Ballesteros (10); H.-W. Chen; (11); N. Diachenko (3); A. D. Goulding (12); J. E. Greene (12); K. N.; Hainline (6); F. Hamann (13); T. Heckman (3); S. D. Johnson (14); D. Lutz; (15); N. L\"utzgendorf (16); V. Mainieri (17); N. Nesvadba (18); P. Ogle; (19); E. Sturm (15) ((1) Rhodes College; (2) Heidelberg; (3) JHU; (4) IAS,; (5) Maryland; (6) Arizona; (7) Hawai'i; (8) USTC; (9) Texas A&M; (10) UNAM,; (11) Chicago; (12) Princeton; (13) Riverside; (14) Michigan; (15) MPE; (16); ESA; (17) ESO; (18) C\^ote d'Azur; (19) STScI)

arXiv:2306.12541·astro-ph.GA·December 12, 2023

First results from the JWST Early Release Science Program Q3D: Benchmark Comparison of Optical and Mid-IR Tracers of a Dusty, Ionized Red Quasar Wind at z=0.435

D. S. N. Rupke (1), D. Wylezalek (2), N. L. Zakamska (3,4), S., Veilleux (5), C. Bertemes (2), Y. Ishikawa (3), W. Liu (6), S. Sankar (3), A., Vayner (3), H. X. G. Lim (1), R. McCrory (1), G. Murphree (1,7), L. Whitesell, (1), L. Shen (8,9), G. Liu (8)

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TL;DR

This study compares optical [OIII] and mid-IR [SIV] emission lines in a dusty quasar wind using JWST data, revealing their similarities and differences in tracing ionized outflows at z=0.435.

Contribution

It demonstrates the effectiveness of mid-IR [SIV] as a tracer of quasar winds and compares it with traditional optical [OIII] observations at high spatial resolution.

Findings

01

[SIV] is the brightest line in the mid-IR range, useful for probing quasar outflows.

02

[OIII] provides better contrast with the continuum and is intrinsically brighter.

03

A strong anticorrelation exists between [OIII]/[SIV] ratio and outflow velocity, indicating differential obscuration.

Abstract

The [OIII] 5007 A emission line is the most common tracer of warm, ionized outflows in active galactic nuclei across cosmic time. JWST newly allows us to use mid-infrared spectral features at both high spatial and spectral resolution to probe these same winds. Here we present a comparison of ground-based, seeing-limited [OIII] and space-based, diffraction-limited [SIV] 10.51 micron maps of the powerful, kiloparsec-scale outflow in the Type 1 red quasar SDSS J110648.32+480712.3. The JWST data are from the Mid-InfraRed Instrument (MIRI). There is a close match in resolution between the datasets (0."6), in ionization potential of the O $^{+ 2}$ and S $^{+ 3}$ ions (35 eV), and in line sensitivity (1e-17 to 2e-17 erg/s/cm $^{2}$ /arcsec $^{2}$ ). The [OIII] and [SIV] line shapes match in velocity and linewidth over much of the 20 kpc outflowing nebula, and [SIV] is the brightest line in the rest-frame…

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Taxonomy

TopicsGalaxies: Formation, Evolution, Phenomena · Astrophysical Phenomena and Observations · Gamma-ray bursts and supernovae