Broad UV Emission Lines in Type-1 Active Galactic Nuclei: A Note on Spectral Diagnostics and the Excitation Mechanism

Marziani, Paola; Olmo, A. del; Perea, J.; D’Onofrio, M.; Panda, Swayamtrupta

doi:10.3390/atoms8040094

Cited by 8 publications

(10 citation statements)

References 51 publications

(82 reference statements)

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“…Emission line ratios in a photoionization context are dependent on the SED of the ionizing radiation that is known in turn to depend on Eddington ratio (Ferland et al 2020; Laor et al 1997), and hence on the location along the MS. Arrays of Cloudy 17.02 (Ferland et al 2017) photoionization simulations were computed covering the

U

‐density parameter plane with a step of 0.25 dex, for 12 values of metallicity covering the range 0.01

Z_{⊙} \leq Z \leq 1000 Z_{⊙}

, with a SED appropriate for sources radiating at high Eddington ratio, including a prominent big blue bump. A detailed account of the simulation settings and a systematic presentation the physical basis of the method and of the results is provided by Marziani, del Olmo, Perea, D'Onofrio, & Panda (2020b) and Śniegowska et al (2021). The simulation results show that diagnostic line ratios CIV λ 1549/HeII λ 1640, AlIII λ 1860/HeII λ 1640, (Si iv + OIV]) λ 1400/HeII λ 1640 are monotonically increasing with

Z

over a wide range of ionization parameter values, for a fixed SED (Śniegowska et al 2021).…”

Section: Extreme Population Amentioning

confidence: 99%

“…The simulation results show that diagnostic line ratios CIV λ 1549/HeII λ 1640, AlIII λ 1860/HeII λ 1640, (Si iv + OIV]) λ 1400/HeII λ 1640 are monotonically increasing with

Z

over a wide range of ionization parameter values, for a fixed SED (Śniegowska et al 2021). The HeII λ 1640 emission line is expedient because of unchanging He abundance and of simple HeII λ 1640 radiation transfer (collisional excitation is negligible, as the lower transition level is at a high energy above ground

\approx 40

eV; Marziani, del Olmo, et al 2020b).…”

Section: Extreme Population Amentioning

confidence: 99%

“…with a SED appropriate for sources radiating at high Eddington ratio, including a prominent big blue bump. A detailed account of the simulation settings and a systematic presentation the physical basis of the method and of the results is provided byMarziani, del Olmo, Perea, D'Onofrio, & Panda (2020b) and Śniegowska et al (2021). The simulation results show that diagnostic line ratios CIV𝜆1549/HeII𝜆1640, AlIII 𝜆1860/HeII𝜆1640, (Si iv + OIV])𝜆1400/HeII𝜆1640 are monotonically increasing with Z over a wide range of ionization parameter values, for a fixed SED ( Śniegowska et al 2021).…”

mentioning

confidence: 99%

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The main sequence of quasars: The taming of the extremes

Marziani

Bon

et al. 2021

Astron Nachr

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The last few years have seen the confirmation of several trends associated with the quasar main sequence. The idea of a main sequence for quasars is relatively recent, and its full potential for the observational classification and contextualization of quasars' properties has yet to be fully exploited. The main sequence drivers are discussed in terms of the properties of extreme objects. We briefly summarize developments that constrain the viewing angle of the accretion disk in a particular class of quasars (extreme Population B, radiating at low Eddington ratio), as well as inferences on the chemical composition of the broad line emitting gas, and on the nature of radio emission along the quasar main sequence.

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U

‐density parameter plane with a step of 0.25 dex, for 12 values of metallicity covering the range 0.01

Z_{⊙} \leq Z \leq 1000 Z_{⊙}

Z

over a wide range of ionization parameter values, for a fixed SED (Śniegowska et al 2021).…”

Section: Extreme Population Amentioning

confidence: 99%

“…The simulation results show that diagnostic line ratios CIV λ 1549/HeII λ 1640, AlIII λ 1860/HeII λ 1640, (Si iv + OIV]) λ 1400/HeII λ 1640 are monotonically increasing with

Z

\approx 40

eV; Marziani, del Olmo, et al 2020b).…”

Section: Extreme Population Amentioning

confidence: 99%

mentioning

confidence: 99%

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The main sequence of quasars: The taming of the extremes

Marziani

Bon

et al. 2021

Astron Nachr

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“…High n H and moderate or relatively high U contribute to make the line stronger (Marziani et al 2020). Figure 17 shows the distribution of the metallicity differences δ log Z = log Z(Aliii) − log Z(Civ) and log Z(Siiv) − log Z(Civ).…”

Section: Abundance Pollutionmentioning

confidence: 99%

High Metal Content of Highly Accreting Quasars: Analysis of an Extended Sample

Garnica¹,

Negrete²,

Marziani³

et al. 2022

Preprint

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Context. We present an analysis of UV spectra of quasars at intermediate redshifts believed to belong to the extreme Population A (xA), aimed to estimate the chemical abundances of the broad line emitting gas. We follow the approach described in a previous work extending the sample to 42 sources. Aims. Our aim is to test the robustness of the analysis carried out previously, as well as to confirm the two most intriguing results of this investigation: evidence of very high solar metallicities, and deviation of the relative abundance of elements with respect to solar values. Methods. The basis of our analysis are multi-component fits in three regions of the spectra centered at 1900, 1550 and 1400 Å in order to deblend the broad components of Aliiiλ1860, Ciii]λ1909, Civλ1549, Heiiλ1640, and Siivλ1397 + Oiv]λ1402 and their blue excess. Results. By comparing the observed flux ratios of these components with the same ratios predicted by photoionization code CLOUDY we found that the virialized gas (broad components) presents a metallicity (Z) higher than 10Z . For non-virialized clouds we derive a lower limit to the metallicity around ∼ 5Z under the assumption of chemical composition proportional to the solar one, confirming the previous results. We especially rely on the ratios between metal lines and Heiiλ1640. This allowed us to confirm systematic differences in the solar-scaled metallicity derived from the lines of Aluminium and Silicon, and of Carbon, with the first being a factor ≈ 2 higher. Conclusions. For luminous quasars accreting at high rates, high Z values are likely, but that Z scaled-values are affected by the possible pollution due to highly-enriched gas associated with the circumnuclear star formation. The high-Z values suggest a complex process involving nuclear and circumnuclear star formation, interaction between nuclear compact objects and accretion disk, possibly with the formation of accretion-modified stars.

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“…Emission line ratios in a photoionization context are dependent on the SED of the ionising radiation that is known in turn to depend on Eddington ratio (Ferland, Done, Jin, Landt, & Ward, 2020;Laor, Fiore, Elvis, Wilkes, & McDowell, 1997), and hence on the location along the MS. Arrays of Cloudy 17.02 photoionization simulations were computed covering the -density parameter plane with a step of 0.25 dex, for 12 values of metallicity covering the range 0.01 ⊙ ≤ ≤ 1000 ⊙ , with a SED appropriate for sources radiating at high Eddington ratio, including a prominent big blue bump. A detailed account of the simulation settings and a systematic presentation the physical basis of the method and of the results is provided by Marziani, del Olmo, Perea, D'Onofrio, & Panda (2020) and Śniegowska et al (2021). The similation results show that diagnostic line ratios CIV 1549/HeII 1640, AlIII 1860/HeII 1640, (SiIV+OIV]) 1400/HeII 1640 are monotonically increasing with over a wide range of ionization parameter values, for a fixed SED (Śniegowska et al, 2021).…”

Section: Chemical Composition Analysismentioning

confidence: 99%

The Main Sequence of quasars: the taming of the extremes

Marziani,

Bon,

Bon

et al. 2021

Preprint

View full text Add to dashboard Cite

show abstract

Broad UV Emission Lines in Type-1 Active Galactic Nuclei: A Note on Spectral Diagnostics and the Excitation Mechanism

Cited by 8 publications

References 51 publications

The main sequence of quasars: The taming of the extremes

The main sequence of quasars: The taming of the extremes

High Metal Content of Highly Accreting Quasars: Analysis of an Extended Sample

The Main Sequence of quasars: the taming of the extremes

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