Copious Amounts of Dust and Gas in a z = 7.5 Quasar Host Galaxy

We present IRAM/NOEMA and JVLA observations of the quasar J1342+0928 at z = 7.54 and report detections of copious amounts of dust and [C ii] emission in the interstellar medium (ISM) of its host galaxy. At this redshift, the age of the universe is 690 Myr, about 10% younger than the redshift of the...

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Veröffentlicht in:	Astrophysical journal. Letters 2017-12, Vol.851 (1), p.L8
Hauptverfasser:	Venemans, Bram P., Walter, Fabian, Decarli, Roberto, Bañados, Eduardo, Carilli, Chris, Winters, Jan Martin, Schuster, Karl, da Cunha, Elisabete, Fan, Xiaohui, Farina, Emanuele Paolo, Mazzucchelli, Chiara, Rix, Hans-Walter, Weiss, Axel
Format:	Artikel
Sprache:	eng
Schlagworte:	Continuum radiation Cosmic dust cosmology: observations Diameters Dust Emissions Emissivity Far infrared radiation Galaxies galaxies: active galaxies: high-redshift galaxies: ISM Interstellar matter Interstellar medium Luminosity Quasars Red shift Space telescopes Star & galaxy formation Star formation
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creator	Venemans, Bram P. Walter, Fabian Decarli, Roberto Bañados, Eduardo Carilli, Chris Winters, Jan Martin Schuster, Karl da Cunha, Elisabete Fan, Xiaohui Farina, Emanuele Paolo Mazzucchelli, Chiara Rix, Hans-Walter Weiss, Axel
description	We present IRAM/NOEMA and JVLA observations of the quasar J1342+0928 at z = 7.54 and report detections of copious amounts of dust and [C ii] emission in the interstellar medium (ISM) of its host galaxy. At this redshift, the age of the universe is 690 Myr, about 10% younger than the redshift of the previous quasar record holder. Yet, the ISM of this new quasar host galaxy is significantly enriched by metals, as evidenced by the detection of the [C ii] 158 m cooling line and the underlying far-infrared (FIR) dust continuum emission. To the first order, the FIR properties of this quasar host are similar to those found at a slightly lower redshift ( ), making this source by far the FIR-brightest galaxy known at . The [C ii] emission is spatially unresolved, with an upper limit on the diameter of 7 kpc. Together with the measured FWHM of the [C ii] line, this yields a dynamical mass of the host of . Using standard assumptions about the dust temperature and emissivity, the NOEMA measurements give a dust mass of . The brightness of the [C ii] luminosity, together with the high dust mass, imply active ongoing star formation in the quasar host. Using [C ii]-SFR scaling relations, we derive star formation rates of 85-545 yr−1 in the host, consistent with the values derived from the dust continuum. Indeed, an episode of such past high star formation is needed to explain the presence of ∼108 M☉ of dust implied by the observations.
doi_str_mv	10.3847/2041-8213/aa943a
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At this redshift, the age of the universe is 690 Myr, about 10% younger than the redshift of the previous quasar record holder. Yet, the ISM of this new quasar host galaxy is significantly enriched by metals, as evidenced by the detection of the [C ii] 158 m cooling line and the underlying far-infrared (FIR) dust continuum emission. To the first order, the FIR properties of this quasar host are similar to those found at a slightly lower redshift ( ), making this source by far the FIR-brightest galaxy known at . The [C ii] emission is spatially unresolved, with an upper limit on the diameter of 7 kpc. Together with the measured FWHM of the [C ii] line, this yields a dynamical mass of the host of . Using standard assumptions about the dust temperature and emissivity, the NOEMA measurements give a dust mass of . The brightness of the [C ii] luminosity, together with the high dust mass, imply active ongoing star formation in the quasar host. Using [C ii]-SFR scaling relations, we derive star formation rates of 85-545 yr−1 in the host, consistent with the values derived from the dust continuum. Indeed, an episode of such past high star formation is needed to explain the presence of ∼108 M☉ of dust implied by the observations.</description><identifier>ISSN: 2041-8205</identifier><identifier>EISSN: 2041-8213</identifier><identifier>DOI: 10.3847/2041-8213/aa943a</identifier><language>eng</language><publisher>Austin: The American Astronomical Society</publisher><subject>Continuum radiation ; Cosmic dust ; cosmology: observations ; Diameters ; Dust ; Emissions ; Emissivity ; Far infrared radiation ; Galaxies ; galaxies: active ; galaxies: high-redshift ; galaxies: ISM ; Interstellar matter ; Interstellar medium ; Luminosity ; Quasars ; Red shift ; Space telescopes ; Star & galaxy formation ; Star formation</subject><ispartof>Astrophysical journal. Letters, 2017-12, Vol.851 (1), p.L8</ispartof><rights>2017. 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Letters</title><addtitle>APJL</addtitle><addtitle>Astrophys. J. Lett</addtitle><description>We present IRAM/NOEMA and JVLA observations of the quasar J1342+0928 at z = 7.54 and report detections of copious amounts of dust and [C ii] emission in the interstellar medium (ISM) of its host galaxy. At this redshift, the age of the universe is 690 Myr, about 10% younger than the redshift of the previous quasar record holder. Yet, the ISM of this new quasar host galaxy is significantly enriched by metals, as evidenced by the detection of the [C ii] 158 m cooling line and the underlying far-infrared (FIR) dust continuum emission. To the first order, the FIR properties of this quasar host are similar to those found at a slightly lower redshift ( ), making this source by far the FIR-brightest galaxy known at . The [C ii] emission is spatially unresolved, with an upper limit on the diameter of 7 kpc. Together with the measured FWHM of the [C ii] line, this yields a dynamical mass of the host of . Using standard assumptions about the dust temperature and emissivity, the NOEMA measurements give a dust mass of . The brightness of the [C ii] luminosity, together with the high dust mass, imply active ongoing star formation in the quasar host. Using [C ii]-SFR scaling relations, we derive star formation rates of 85-545 yr−1 in the host, consistent with the values derived from the dust continuum. 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Lett</addtitle><date>2017-12-10</date><risdate>2017</risdate><volume>851</volume><issue>1</issue><spage>L8</spage><pages>L8-</pages><issn>2041-8205</issn><eissn>2041-8213</eissn><abstract>We present IRAM/NOEMA and JVLA observations of the quasar J1342+0928 at z = 7.54 and report detections of copious amounts of dust and [C ii] emission in the interstellar medium (ISM) of its host galaxy. At this redshift, the age of the universe is 690 Myr, about 10% younger than the redshift of the previous quasar record holder. Yet, the ISM of this new quasar host galaxy is significantly enriched by metals, as evidenced by the detection of the [C ii] 158 m cooling line and the underlying far-infrared (FIR) dust continuum emission. To the first order, the FIR properties of this quasar host are similar to those found at a slightly lower redshift ( ), making this source by far the FIR-brightest galaxy known at . The [C ii] emission is spatially unresolved, with an upper limit on the diameter of 7 kpc. Together with the measured FWHM of the [C ii] line, this yields a dynamical mass of the host of . Using standard assumptions about the dust temperature and emissivity, the NOEMA measurements give a dust mass of . The brightness of the [C ii] luminosity, together with the high dust mass, imply active ongoing star formation in the quasar host. Using [C ii]-SFR scaling relations, we derive star formation rates of 85-545 yr−1 in the host, consistent with the values derived from the dust continuum. 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subjects	Continuum radiation Cosmic dust cosmology: observations Diameters Dust Emissions Emissivity Far infrared radiation Galaxies galaxies: active galaxies: high-redshift galaxies: ISM Interstellar matter Interstellar medium Luminosity Quasars Red shift Space telescopes Star & galaxy formation Star formation
title	Copious Amounts of Dust and Gas in a z = 7.5 Quasar Host Galaxy
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