Radio galaxies at $z\sim$ 2.5: Results from Keck spectropolarimetry

Vernet, J.; Fosbury, R. A. E.; Villar-Martı́n, M.; Cohen, M. H.; Cimatti, A.; Alighieri, S. di Serego; Goodrich, Robert W.

doi:10.1051/0004-6361:20000076

Cited by 162 publications

(308 citation statements)

References 62 publications

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“…The dust reprocessed starburst light dominates the spectrum at long wavelengths (λ > 10 µm), while the reprocessing of AGN energy is neglible. This is consistent with the model in Vernet et al (2001) for the z ∼ 2.5 radio galaxy, 4C+48.48.…”

Section: Fir and Optical Spectrumsupporting

confidence: 91%

“…4, together with results from independent observations, seems to support this picture: (a) the dusty torus emits between 10 and 50 µm and heated by the AGN, (b) an additional cool component emitting at 100-140 µm and representing the reprocessed stellar energy in the host environment is clearly seen in radio galaxies and it may be outshone by the stronger non-thermal beamed component in quasars, (c) the difference at UV-optical wavelengths between the two classes is due to the obscuration of the AGN in the radio galaxies by the optically thick torus. The optical/UV flux which remains visible in these objects can be a combination of scattered AGN light and a direct view of a young stellar population (Vernet et al 2001).…”

Section: The Composite Spectramentioning

confidence: 99%

“…For instance, the detection of significant linear polarization in the UV/blue aligned light is identified with scattered light from a hidden AGN due to externally illuminated dust which acts as a very efficient reflector of UV light (di Serego Alighieri et al 1989;Scarrott et al 1990;Cimatti et al 1993;di Serego Alighieri et al 1996;Cimatti & di Serego Alighieri 1995;Manzini & di Serego Alighieri 1996;Best & Longair 1999;Vernet et al 2001).…”

Section: Introductionmentioning

confidence: 99%

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Far-infrared/millimetre emission in 3C sources

Andreani¹,

Fosbury²,

Bemmel³

et al. 2002

A&A

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Abstract. We present far-infrared and millimetric observations of a sample of 3C objects. Millimetre data were taken at 1.25 mm with the IRAM 30 m antenna feeding the MPIfR bolometer array. Mid-infrared (MIR) and far-infrared (FIR) photometry were carried out with the ISOCAM and ISOPHOT cameras on the ISO Satellite. Additional FIR IRAS observations are also included. We present the entire Spectral Energy Distributions (SEDs) from the UV to radio and discuss the emitting mechanisms. Two composite spectra, one for the radio galaxies and one for the radio quasars, are built in the object rest frame. While the SEDs of the two classes differ, they are indistinguishable in the MIR and FIR range where they probably arise as thermal emission from a dusty torus and a larger-scale (cooler) dust distribution in the host galaxy.

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Section: Fir and Optical Spectrumsupporting

confidence: 91%

Section: The Composite Spectramentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Far-infrared/millimetre emission in 3C sources

Andreani¹,

Fosbury²,

Bemmel³

et al. 2002

A&A

Self Cite

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“…With a WISE magnitude (Vega) of [3.4]=17.4±0.2, we estimate a stellar mass of ∼10 11.8 -10 12.5 M⊙, under the assumption that the rest-frame 1.3 µm emission is dominated by stars, with our range of mass to light ratio be- [NeIV] and MgII. We show some of our MAPPINGS 1e photoionization model calculations, together with shock models from Allen et al (2008), the measured line flux ratios of the gband knot of 5C 7.245 (this work), and the flux ratios of other HzRGs as reported by Vernet et al (2001) and Solórzano-Iñarrea et al (2004). We have labeled one end of each model locus to indicate shock velocity or ionization parameter U as appropriate.…”

Section: Stellar Massmentioning

confidence: 99%

Witnessing the transformation of a quasar host galaxy at z = 1.6

Humphrey

Roche

Gomes

et al. 2015

Monthly Notices of the Royal Astronomical Society

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A significant minority of high redshift radio galaxy (HzRG) candidates show extremely red broad band colours and remain undetected in emission lines after optical 'discovery' spectroscopy. In this paper we present deep GTC optical imaging and spectroscopy of one such radio galaxy, 5C 7.245, with the aim of better understanding the nature of these enigmatic objects. Our g-band image shows no significant emission coincident with the stellar emission of the host galaxy, but does reveal faint emission offset by ∼3 ′′ (26 kpc) therefrom along a similar position angle to that of the radio jets, reminiscent of the 'alignment effect' often seen in the optically luminous HzRGs. This offset g-band source is also detected in several UV emission lines, giving it a redshift of 1.609, with emission line flux ratios inconsistent with photoionization by young stars or an AGN, but consistent with ionization by fast shocks. Based on its unusual gas geometry, we argue that in 5C 7.245 we are witnessing a rare (or rarely observed) phase in the evolution of quasar hosts when stellar mass assembly, accretion onto the back hole, and powerful feedback activity has eradicated its cold gas from the central ∼20 kpc, but is still in the process of cleansing cold gas from its extended halo.

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“…As for other objects at intermediate/high redshifts, the presence of the carriers of the 2175 Å feature is controversial in quasars/active galactic nuclei (AGN) (cf. Pitman et al 2000;Maiolino et al 2001;Hopkins et al 2004;Vernet et al 2001) and intervening Mg II absorbers (Malhotra 1997;Wang et al 2004;Vanden Berk et al 2008), whereas it is likely in Ca II absorbers at intermediate redshifts (Wild & Hewett 2005).…”

Section: Introductionmentioning

confidence: 99%

GMASS ultradeep spectroscopy of galaxies at z ~ 2

Noll

Pierini

Cimatti

et al. 2009

A&A

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Aims. The properties of dust attenuation at rest-frame UV wavelengths are inferred from very high-quality FORS 2 spectra of 78 galaxies from the GMASS survey at redshift 1 < z < 2.5. These objects complement a previously investigated sample of 108 UV-luminous, intermediate-mass (i.e., with stellar masses ∼10 10 −10 11 M ) galaxies at similar redshifts, selected from the FDF spectroscopic survey, the K20 survey, and the GDDS. Detection of the broad absorption feature centred on about 2175 Å ("UV bump") implies that the average UV extinction curve of a galaxy more closely resembles that of the Milky Way (MW) or the Large Magellanic Cloud (LMC), and differs from that of the Small Magellanic Cloud (SMC). Methods. The shape of the UV extinction curve is constrained by a parametric description of the rest-frame UV continuum with the support of a suite of models combining radiative transfer and stellar population synthesis. The UV bump is further characterised by fitting Lorentzian-like profiles. Results. Spectra exhibit a significant 2175 Å feature in at least 30% of the cases, especially those suffering from substantial reddening. If attenuation is dominated by dust ejected from the galaxy main body via galactic winds or more localised superwinds, UV extinction curves in-between those of the SMC and LMC characterise UV-luminous, intermediate-mass galaxies at 1 < z < 2.5. The fraction of galaxies with extinction curves differing from the SMC one increases, if more dust resides in the galactic plane or dust attenuation depends on stellar age. On average, the width of the manifested UV bumps is about 60% of the values typically measured along sightlines in the LMC and MW. This suggests the presence of dust similar to that found in the "supergiant" shell of ionised filaments LMC 2, close to 30 Dor. The presence of the carriers of the UV bump (probably organic carbon and amorphous silicates) at 1 < z < 2.5 argues for outflows from asymptotic giant branch (AGB) stars being copious then. Consistent with their higher star-formation rates, the GMASS galaxies with a manifested UV bump are more luminous at rest-frame 8 μm, where the emission is dominated by polycyclic aromatic hydrocarbons (also products of AGB stars). In addition, they exhibit larger equivalent widths for prominent UV (metal) absorption features, mostly of interstellar origin, which indicates overall more evolved stellar populations. Conclusions. We conclude that diversification of the small-size dust component (responsible for the differential extinction at UV wavelengths and the emission at mid-IR wavelengths) has already started in the most evolved star-forming systems at 1 < z < 2.5.

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Radio galaxies at $z\sim$ 2.5: Results from Keck spectropolarimetry

Cited by 162 publications

References 62 publications

Far-infrared/millimetre emission in 3C sources

Far-infrared/millimetre emission in 3C sources

Witnessing the transformation of a quasar host galaxy at z = 1.6

GMASS ultradeep spectroscopy of galaxies at z ~ 2

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