Deciphering an evolutionary sequence of merger stages in infrared-luminous starburst galaxies atz∼ 0.7

Based on optical and near-IRMagellanFIRE spectra of 25 starburst galaxies at 0.5 < z < 0.9, a recent publication showed that their attenuation properties can be explained by a single-parameter sequence of total obscurations ranging fromAV = 2 toAV = 30 toward the starburst core centers in a mixed stars and dust configuration. We investigate here the origin of this sequence for the same sample. We show that total attenuations anticorrelate with the starburst sizes in radio (3 GHz) with a significance larger than 5σand a scatter of 0.26 dex. More obscured and compact starbursts also show enhanced N2 (=[NII]/Hα) ratios and larger line velocity widths that we attribute to an increasing shock contribution toward later merger phases, driven by deeper gravitational potential wells at the coalescence. Additionally, the attenuation is also linked to the equivalent width (EW) of hydrogen recombination lines, which is sensitive to the luminosity weighted age of the relatively unobscured stellar populations. Overall, the correlations amongAV, tot, radio size, line width, N2 and EW of Balmer and Paschen lines converge toward suggesting an evolutionary sequence of merger stages: all of these quantities are likely to be good time-tracers of the merger phenomenon, and their large spanned range appears to be characteristic of the different merger phases. Half of our sample at higher obscurations have radio sizes approximately 3 times smaller than early type galaxies at the same redshift, suggesting that, in analogy with local ultraluminous infrared galaxies (ULIRGs), these cores cannot be directly forming elliptical galaxies. Finally, we detect mid-IR AGN torus for half of our sample and additional X-ray emission for 6 starbursts; intriguingly, the latter have systematically more compact sizes, suggestive of emerging AGNs toward later merger stages, possibly precursors of a later QSO phase.

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Obscured Supernovae in Starburst Galaxies

Proceedings of the International Astronomical Union ◽

10.1017/s1743921306006880 ◽

2006 ◽

Vol 2 (S235) ◽

pp. 323-323 ◽

Cited By ~ 1

Author(s):

Seppo Mattila ◽

Peter Meikle ◽

Robert Greimel ◽

Petri Väisänen

Keyword(s):

Starburst Galaxies ◽

Core Collapse ◽

Infrared Galaxies ◽

Dust Extinction ◽

Core Collapse Supernova ◽

Luminous Infrared Galaxies ◽

Near Ir ◽

Nuclear Regions ◽

High Dust

About one core-collapse supernova (CCSN) is expected to explode every 5–10 years in the nuclear regions of M 82 and other nearby starburst galaxies. In luminous infrared galaxies (LIRGs) such as the interacting system Arp 299 (NGC 3690 + IC 0694) at least one CCSN can be expected every year. Due to the high dust extinction most of these SNe have remained undetected. Here we show results from two near-IR searches we have recently carried out to detect obscured SNe in nearby starburst galaxies and LIRGs.

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High Spatial Resolution Near-IR Tip/Tilt Imaging of “Warm” Ultraluminous Infrared Galaxies

Symposium - International Astronomical Union ◽

10.1017/s0074180900113105 ◽

1999 ◽

Vol 186 ◽

pp. 363-363

Author(s):

J.A. Surace ◽

D.B. Sanders

Keyword(s):

Spatial Resolution ◽

High Spatial Resolution ◽

Compact Star ◽

Dust Emission ◽

Host Galaxies ◽

Infrared Galaxies ◽

Star Forming ◽

Compact Source ◽

Near Ir ◽

Ultraluminous Infrared Galaxies

We present results from high spatial resolution (FWHM ≈ 0.3–0.5″) near-IR (1.6 and 2.1μm) imaging of a complete sample of ultraluminous infrared galaxies (ULIGs) chosen to have “warm” mid-IR colors (f25/f60 > 0.2) characteristic of AGN. In conjunction with our WFPC2 imaging program (Surace et al. 1998), we have found that nearly all of these systems are advanced mergers with complex nuclear morphologies. The extended underlying galaxies are detected in each system at H and K′, and are found to have luminosities of a few L∗, similar to quasars (McLeod & Rieke 1994). Many of the circumnuclear star-forming knots seen at optical wavelengths have been detected. Based on model SEDs, their bolometric luminosities appear similar to those of the extended nuclear starbursts seen in other, less-luminous interacting systems (i.e. NGC 4038/9). Each ULIG is increasingly dominated at long wavelengths by a compact source which we identify as a putative active nucleus. The optical/near-IR colors of these putative nuclei are more extreme than the most infrared-active starburst galaxies, yet are identical to “far-IR loud” quasars which are in turn similar to optical quasars with significant hot (800 K) dust emission. Half of the ULIGs have dereddened nuclear near-IR luminosities comparable to those of QSOs, while the others resemble Seyferts; this may be an effect of patchy extinction and scattering. Similarities between the putative ULIG nuclei and QSO nuclei, the underlying host galaxies, and the apparent young age of the ULIGs (as evidenced by their compact star-forming knots) support the evolution of “warm” ULIGs into optical QSOs.

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Anomalous Hydrogen Recombination Line Ratios in Ultraluminous Infrared Galaxies

The Astrophysical Journal ◽

10.3847/1538-4357/ac26be ◽

2021 ◽

Vol 922 (2) ◽

pp. 272

Author(s):

Kenichi Yano ◽

Shunsuke Baba ◽

Takao Nakagawa ◽

Matthew A. Malkan ◽

Naoki Isobe ◽

...

Keyword(s):

Column Density ◽

High Density ◽

Line Ratio ◽

Infrared Galaxies ◽

Recombination Line ◽

Gas Density ◽

Dust Extinction ◽

Hydrogen Recombination ◽

Ultraluminous Infrared Galaxies

Abstract We conducted systematic observations of the H i Brα (4.05 μm) and Brβ (2.63 μm) lines in 52 nearby (z < 0.3) ultraluminous infrared galaxies (ULIRGs) with AKARI. Among 33 ULIRGs wherein the lines are detected, 3 galaxies show anomalous Brβ/Brα line ratios (∼1.0), which are significantly higher than those for case B (0.565). Our observations also show that ULIRGs have a tendency to exhibit higher Brβ/Brα line ratios than those observed in Galactic H ii regions. The high Brβ/Brα line ratios cannot be explained by a combination of dust extinction and case B since dust extinction reduces the ratio. We explore possible causes for the high Brβ/Brα line ratios and show that the observed ratios can be explained by a combination of an optically thick Brα line and an optically thin Brβ line. We simulated the H ii regions in ULIRGs with the Cloudy code, and our results show that the high Brβ/Brα line ratios can be explained by high-density conditions, wherein the Brα line becomes optically thick. To achieve a column density large enough to make the Brα line optically thick within a single H ii region, the gas density must be as high as n ∼ 108 cm−3. We therefore propose an ensemble of H ii regions, in each of which the Brα line is optically thick, to explain the high Brβ/Brα line ratio.

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The Wide-Field Infrared Explorer (Wire) Mission

Symposium - International Astronomical Union ◽

10.1017/s0074180900128359 ◽

1998 ◽

Vol 179 ◽

pp. 118-120

Author(s):

D.L. Shupe ◽

P.B. Hacking ◽

T. Herter ◽

T.N. Gautier ◽

P. Graf ◽

...

Keyword(s):

Starburst Galaxies ◽

Wide Field ◽

Galactic Latitude ◽

Infrared Galaxies ◽

High Galactic Latitude ◽

Ultraluminous Infrared Galaxies ◽

The Wire ◽

Astronomical Instrument

The Wide-Field Infrared Explorer (WIRE) (Schember et al. 1996 and references within) is a small spaceborne telescope specifically designed to study the evolution of starburst galaxies. This powerful astronomical instrument will be capable of detecting typical starburst galaxies at z ∼ 0.5, ultraluminous infrared galaxies beyond a z ∼ 2, and luminous protogalaxies beyond z ∼ 5. The WIRE survey, to be conducted during a four month period in 1998, will cover over 100 deg2 of high Galactic latitude sky at 25 μm and 12 μm.

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