Your search keyword '"Appleton, P."' showing total 42 results

1. Multiphase Gas Interactions on Subarcsec Scales in the Shocked Intergalactic Medium of Stephan's Quintet with JWST and ALMA.

Author

Appleton, P. N., Guillard, P., Emonts, Bjorn, Boulanger, Francois, Togi, Aditya, Reach, William T., Alatalo, Kathleen, Cluver, M., Diaz Santos, T., Duc, P.-A., Gallagher, S., Ogle, P., O'Sullivan, E., Voggel, K., and Xu, C. K.

Subjects

*INTERSTELLAR medium, *COLD gases, *MOLECULAR clouds, *ROGUE waves, *POLYCYCLIC aromatic hydrocarbons, *QUINTETS, *GALAXY mergers

Abstract

We combine James Webb Space Telescope (JWST) and Hubble Space Telescope imaging with Atacama Large Millimeter Array CO(2–1) spectroscopy to study the highly turbulent multiphase intergalactic medium (IGM) in Stephan's Quintet on 25–150 pc scales. Previous Spitzer observations revealed luminous H2 line cooling across a 45 kpc-long filament, created by a giant shock wave, following the collision with an intruder galaxy, NGC 7318b. We demonstrate that the Mid-Infrared Instrument/F1000W/F770W filters are dominated by 0–0 S(3) H2 and a combination of polycyclic aromatic hydrocarbon and 0–0 S(5) H2 emission. These observations reveal the dissipation of kinetic energy as massive clouds experience collisions, interactions, and likely destruction/recycling within different phases of the IGM. In 1 kpc-scaled structure, warm H2 was seen to form a triangular-shaped head and tail of compressed and stripped gas behind a narrow shell of cold H2. In another region, two cold molecular clumps with very different velocities are connected by an arrow-shaped stream of warm, probably shocked, H2 suggesting a cloud–cloud collision is occurring. In both regions, a high warm-to-cold molecular gas fraction indicates that the cold clouds are being disrupted and converted into warm gas. We also map gas associated with an apparently forming dwarf galaxy. We suggest that the primary mechanism for exciting strong mid-IR H2 lines throughout Stephan's Quintet is through a fog of warm gas created by the shattering of denser cold molecular clouds and mixing/recycling in the post-shocked gas. A full picture of the diverse kinematics and excitation of the warm H2 will require future JWST mid-IR spectroscopy. The current observations reveal the rich variety of ways that different gas phases can interact with one another. [ABSTRACT FROM AUTHOR]

Published

2023

2. Extremely Broad Ly α Line Emission from the Molecular Intragroup Medium in Stephan’s Quintet: Evidence for a Turbulent Cascade in a Highly Clumpy Multiphase Medium?

Author

Guillard, P., Appleton, P. N, Boulanger, F., Shull, J. M., Lehnert, M. D., Pineau des Forets, G., Falgarone, E., Cluver, M. E., Xu, C. K., Gallagher, S. C., and Duc, P. A.

Subjects

*GALAXY mergers, *RELATIVE velocity, *QUINTETS, *INTERSTELLAR medium, *ENERGY dissipation, *REDSHIFT

Abstract

We present Hubble Space Telescope Cosmic Origin Spectrograph (COS) UV line spectroscopy and integral-field unit (IFU) observations of the intragroup medium in Stephan’s Quintet (SQ). SQ hosts a 30 kpc long shocked ridge triggered by a galaxy collision at a relative velocity of 1000 km sâˆ'1, where large amounts of molecular gas coexist with a hot, X-ray-emitting, plasma. COS spectroscopy at five positions sampling the diverse environments of the SQ intragroup medium reveals very broad (≈2000 km sâˆ'1) Ly α line emission with complex line shapes. The Ly α line profiles are similar to or much broader than those of H β, [C ii ]157.7 ÎĽ m, and CO (1â€"0) emission. The extreme breadth of the Ly α emission, compared with H β, implies resonance scattering within the observed structure. Scattering indicates that the neutral gas of the intragroup medium is clumpy, with a significant surface covering factor. We observe significant variations in the Ly α /H β flux ratio between positions and velocity components. From the mean line ratio averaged over positions and velocities, we estimate the effective escape fraction of Ly α photons to be ≈10%â€"30%. Remarkably, over more than four orders of magnitude in temperature, the powers radiated by X-rays, Ly α, H2, and [C ii ] are comparable within a factor of a few, assuming that the ratio of the Ly α to H2 fluxes over the whole shocked intragroup medium stay in line with those observed at those five positions. Both shocks and mixing layers could contribute to the energy dissipation associated with a turbulent energy cascade. Our results may be relevant for the cooling of gas at high redshifts, where the metal content is lower than in this local system, and a high amplitude of turbulence is more common. [ABSTRACT FROM AUTHOR]

Published

2022

3. MID-INFRARED ATOMIC FINE-STRUCTURE EMISSION-LINE SPECTRA OF LUMINOUS INFRARED GALAXIES: SPITZER/IRS SPECTRA OF THE GOALS SAMPLE.

Author

Inami, H., Armus, L., Charmandaris, V., Groves, B., Kewley, L., Petric, A., Stierwalt, S., Díaz-Santos, T., Surace, J., Rich, J., Haan, S., Howell, J., Evans, A. S., Mazzarella, J., Marshall, J., Appleton, P., Lord, S., Spoon, H., Frayer, D., and Matsuhara, H.

Subjects

STARBURSTS, INFRARED astronomy, GALAXIES, EMISSION-line galaxies, PHOTOIONIZATION

Abstract

We present the data and our analysis of mid-infrared atomic fine-structure emission lines detected in Spitzer/Infrared Spectrograph high-resolution spectra of 202 local Luminous Infrared Galaxies (LIRGs) observed as part of the Great Observatories All-sky LIRG Survey (GOALS). We readily detect emission lines of [S IV], [Ne II], [Ne V], [Ne III], [S III]18.7 μm, [O IV], [Fe II], [S III]33.5 μm, and [Si II]. More than 75% of these galaxies are classified as starburst-dominated sources in the mid-infrared, based on the [Ne V]/[Ne II] line flux ratios and equivalent width of the 6.2 μm polycyclic aromatic hydrocarbon feature. We compare ratios of the emission-line fluxes to those predicted from stellar photo-ionization and shock-ionization models to constrain the physical and chemical properties of the gas in the starburst LIRG nuclei. Comparing the [S IV]/[Ne II] and [Ne III]/[Ne II] line ratios to the Starburst99-Mappings III models with an instantaneous burst history, the emission-line ratios suggest that the nuclear starbursts in our LIRGs have ages of 1-4.5 Myr, metallicities of 1-2 Z☼, and ionization parameters of 2-8 × 107 cm s–1. Based on the [S III]33.5 μm/[S III]18.7 μm ratios, the electron density in LIRG nuclei is typically one to a few hundred cm–3, with a median electron density of ∼300 cm–3, for those sources above the low density limit for these lines. We also find that strong shocks are likely present in 10 starburst-dominated sources of our sample. A significant fraction of the GOALS sources (80) have resolved neon emission-line profiles (FWHM ⩾600 km s–1) and five show clear differences in the velocities of the [Ne III] or [Ne V] emission lines, relative to [Ne II], of more than 200 km s–1. Furthermore, six starburst and five active galactic nucleus dominated LIRGs show a clear trend of increasing line width with ionization potential, suggesting the possibility of a compact energy source and stratified interstellar medium in their nuclei. We confirm a strong correlation between the sum of the [Ne II]12.8 μm and [Ne III]15.5 μm emission, as well as [S III]33.5 μm, with both the infrared luminosity and the 24 μm warm dust emission measured from the spectra, consistent with all three lines tracing ongoing star formation. Finally, we find no correlation between the hardness of the radiation field or the emission-line width and the ratio of the total infrared to 8 μm emission (IR8), a measure of the strength of the starburst and the distance of the LIRGs from the star-forming main sequence. This may be a function of the fact that the infrared luminosity and the mid-infrared fine-structure lines are sensitive to different timescales over the starburst, or that IR8 is more sensitive to the geometry of the region emitting the warm dust than the radiation field producing the H II region emission. [ABSTRACT FROM AUTHOR]

Published

2013

4. SHOCK-ENHANCED C+ EMISSION AND THE DETECTION OF H2O FROM THE STEPHAN'S QUINTET GROUP-WIDE SHOCK USING HERSCHEL Herschel is an ESA space observatory with science instruments provided by European-led Principal Investigator consortia and with important participation from NASA.

Author

Appleton, P. N., Guillard, P., Boulanger, F., Cluver, M. E., Ogle, P., Falgarone, E., Forêts, G. Pineau des, O'Sullivan, E., Duc, P.-A., Gallagher, S., Gao, Y., Jarrett, T., Konstantopoulos, I., Lisenfeld, U., Lord, S., Lu, N., Peterson, B. W., Struck, C., Sturm, E., and Tuffs, R.

Subjects

*GALAXIES, *CONSTELLATIONS, *INTERSTELLAR medium, *STAR formation, *ASTROPHYSICS research

Abstract

We present the first Herschel spectroscopic detections of the [O I] 63 μm and [C II] 158 μm fine-structure transitions, and a single para-H2O line from the 35 × 15 kpc2 shocked intergalactic filament in Stephan's Quintet. The filament is believed to have been formed when a high-speed intruder to the group collided with a clumpy intergroup gas. Observations with the PACS spectrometer provide evidence for broad (>1000 km s–1) luminous [C II] line profiles, as well as fainter [O I] 63 μm emission. SPIRE FTS observations reveal water emission from the p-H2O (111-000) transition at several positions in the filament, but no other molecular lines. The H2O line is narrow and may be associated with denser intermediate-velocity gas experiencing the strongest shock-heating. The [C II]/PAHtot and [C II]/FIR ratios are too large to be explained by normal photo-electric heating in photodissociation regions. H II region excitation or X-ray/cosmic-ray heating can also be ruled out. The observations lead to the conclusion that a large fraction the molecular gas is diffuse and warm. We propose that the [C II], [O I], and warm H2 line emission is powered by a turbulent cascade in which kinetic energy from the galaxy collision with the intergalactic medium is dissipated to small scales and low velocities, via shocks and turbulent eddies. Low-velocity magnetic shocks can help explain both the [C II]/[O I] ratio, and the relatively high [C II]/H2 ratios observed. The discovery that [C II] emission can be enhanced, in large-scale turbulent regions in collisional environments, has implications for the interpretation of [C II] emission in high-z galaxies. [ABSTRACT FROM AUTHOR]

Published

2013

5. EXPLAINING THE [C II]157.7 μm DEFICIT IN LUMINOUS INFRARED GALAXIES--FIRST RESULTS FROM A HERSCHEL/PACS STUDY OF THE GOALS SAMPLE.

Author

DíAZ-SANTOS, T., ARMUS, L., CHARMANDARIS, V., STIERWALT, S., MURPHY, E. J., HAAN, S., INAMI, H., MALHOTRA, S., MEIJERINK, R., STACEY, G., PETRIC, A. O., EVANS, A. S., VEILLEUX, S., VAN DER WERF, P. P., LORD, S., LU, N., HOWELL, J. H., APPLETON, P., MAZZARELLA, J. M., and SURACE, J. A.

Subjects

ACTIVE galactic nuclei, LUMINOSITY, INTERSTELLAR medium, STARBURSTS, ASTRONOMICAL surveys

Abstract

We present the first results of a survey of the [C II]157.7μmemission line in 241 luminous infrared galaxies (LIRGs) comprising the Great Observatories All-sky LIRG Survey (GOALS) sample, obtained with the PACS instrument on board the Herschel Space Observatory. The [C II] luminosities, L[C II], of the LIRGs in GOALS range from ~107 to 2×109 Lʘ. We find that LIRGs show a tight correlation of [C II]/FIR with far-IR (FIR) flux density ratios, with a strong negative trend spanning from ~10-2 to 10-4, as the average temperature of dust increases. We find correlations between the [C II]/FIR ratio and the strength of the 9.7μmsilicate absorption feature as well as with the luminosity surface density of the mid-IR emitting region (ΣMIR), suggesting that warmer, more compact starbursts have substantially smaller [C II]/FIR ratios. Pure star-forming LIRGs have a mean [C II]/FIR ~ 4 × 10-3, while galaxies with low polycyclic aromatic hydrocarbon (PAH) equivalent widths (EWs), indicative of the presence of active galactic nuclei (AGNs), span the full range in [C II]/FIR. However, we show that even when only pure star-forming galaxies are considered, the [C II]/FIR ratio still drops by an order of magnitude, from 10-2 to 10-3, with ΣMIR and ΣIR, implying that the [C II]157.7μm luminosity is not a good indicator of the star formation rate (SFR) for most local LIRGs, for it does not scale linearly with the warm dust emission most likely associated to the youngest stars. Moreover, even in LIRGs in which we detect an AGN in the mid-IR, the majority (2/3) of galaxies show [C II]/FIR ⩾ 10-3 typical of high 6.2μm PAH EW sources, suggesting that most AGNs do not contribute significantly to the FIR emission. We provide an empirical relation between the [C II]/FIR and the specific SFR for star-forming LIRGs. Finally, we present predictions for the starburst size based on the observed [C II] and FIR luminosities which should be useful for comparing with results from future surveys of high-redshift galaxies with ALMA and CCAT. [ABSTRACT FROM AUTHOR]

Published

2013

6. ENHANCED WARM H2 EMISSION IN THE COMPACT GROUP MID-INFRARED "GREEN VALLEY".

Author

CLUVER, M. E., APPLETON, P. N., OGLE, P., JARRETT, T. H., RASMUSSEN, J., LISENFELD, U., GUILLARD, P., VERDES-MONTENEGRO, L., ANTONUCCI, R., BITSAKIS, T., CHARMANDARIS, V., BOULANGER, F., EGAMI, E., XU, C. K., and YUN, M. S.

Subjects

*GALAXIES, *INFRARED spectroscopy, *POLYCYCLIC aromatic hydrocarbons, *ENERGY dissipation, *MECHANICAL energy

Abstract

We present results from a Spitzer mid-infrared spectroscopy study of a sample of 74 galaxies located in 23 Hickson Compact Groups (HCGs), chosen to be at a dynamically active stage of Hi depletion.We find evidence for enhanced warm H2 emission (i.e., above that associated with UV excitation in star-forming regions) in 14 galaxies (~20%), with 8 galaxies having extreme values of L(H2 S(0)-S(3))/L(7.7μm polycyclic aromatic hydrocarbon), in excess of 0.07. Such emission has been seen previously in the compact group HCG 92 (Stephan's Quintet), and was shown to be associated with the dissipation of mechanical energy associated with a large-scale shock caused when one group member collided, at high velocity, with tidal debris in the intragroup medium. Similarly, shock excitation or turbulent heating is likely responsible for the enhanced H2 emission in the compact group galaxies, since other sources of heating (UV or X-ray excitation from star formation or active galactic nuclei) are insufficient to account for the observed emission. The group galaxies fall predominantly in a region of mid-infrared color-color space identified by previous studies as being connected to rapid transformations in HCG galaxy evolution. Furthermore, the majority of H2-enhanced galaxies lie in the optical "green valley" between the blue cloud and red sequence, and are primarily early-type disk systems. We suggest that H2-enhanced systems may represent a specific phase in the evolution of galaxies in dense environments and provide new insight into mechanisms which transform galaxies onto the optical red sequence. [ABSTRACT FROM AUTHOR]

Published

2013

7. TURBULENT MOLECULAR GAS AND STAR FORMATION IN THE SHOCKED INTERGALACTIC MEDIUM OF STEPHAN'S QUINTET.

Author

GUILLARD, P., BOULANGER, F., DES FORÊTS, G. PINEAU, FALGARONE, E., GUSDORF, A., CLUVER, M. E., APPLETON, P. N., LISENFELD, U., DUC, P.-A., OGLE, P. M., and C. K. XU

Subjects

MOLECULAR clouds, GALAXIES, KINETIC energy, STAR formation, HIGH temperature plasmas, INTERSTELLAR medium, CARBON monoxide spectra

Abstract

The Stephan's Quintet (hereafter SQ) is a template source to study the impact of galaxies interaction on the physical state and energetics of their gas. We report on IRAM single-dish CO observations of the SQ compact group of galaxies. These observations follow up the Spitzer discovery of bright mid-IR H2 rotational line emission (L(H2) ≈ 1035 W) from warm (102-3 K) molecular gas, associated with a 30 kpc long shock between a galaxy, NGC 7318b, and NGC 7319's tidal arm. We detect CO(1-0), (2-1) and (3-2) line emission in the inter-galactic medium (IGM)with complex profiles, spanning a velocity range of≈1000 km s-1. The spectra exhibit the pre-shock recession velocities of the two colliding gas systems (5700 and 6700 km s-1), but also intermediate velocities. This shows that much of themolecular gas has formed out of diffuse gas accelerated by the galaxy-tidal arm collision. CO emission is also detected in a bridge feature that connects the shock to the Seyfert member of the group, NGC 7319, and in the northern star forming region, SQ-A, where a new velocity component is identified at 6900 km s-1, in addition to the two velocity components already known. Assuming a Galactic CO(1-0) emission to H2 mass conversion factor, a total H2 mass of ≈5 x 109Mʘis detected in the shock. The ratio between the warm H2 mass derived from Spitzer spectroscopy, and the H2 mass derived from CO fluxes is ≈0.3 in the IGM of SQ, which is 10-100 times higher than in star-forming galaxies. The molecular gas carries a large fraction of the gas kinetic energy involved in the collision, meaning that this energy has not been thermalized yet. The kinetic energy of the H2 gas derived from CO observations is comparable to that of the warm H2 gas from Spitzer spectroscopy, and a factor ≈5 greater than the thermal energy of the hot plasma heated by the collision. In the shock and bridge regions, the ratio of the PAH-to-CO surface luminosities, commonly used to measure the star formation efficiency of the H2 gas, is lower (up to a factor 75) than the observed values in star-forming galaxies. We suggest that turbulence fed by the galaxy-tidal arm collision maintains a high heating rate within the H2 gas. This interpretation implies that the velocity dispersion on the scale of giant molecular clouds in SQ is one order of magnitude larger than the Galactic value. The high amplitude of turbulence may explain why this gas is not forming stars efficiently. [ABSTRACT FROM AUTHOR]

Published

2012

8. STRONG MOLECULAR HYDROGEN EMISSION AND KINEMATICS OF THE MULTIPHASE GAS IN RADIO GALAXIES WITH FAST JET-DRIVEN OUTFLOWS.

Author

GUILLARD, P., OGLE, P. M., EMONTS, B. H. C., APPLETON, P. N., MORGANTI, R., TADHUNTER, C., OOSTERLOO, T., EVANS, D. A., and EVANS, A. S.

Subjects

RADIO galaxies, ACTIVE galactic nuclei, INTERSTELLAR medium, STAR formation, GALAXIES, KINEMATICS

Abstract

Observations of ionized and neutral gas outflows in radio galaxies (RGs) suggest that active galactic nucleus (AGN) radio jet feedback has a galaxy-scale impact on the host interstellar medium, but it is still unclear how the molecular gas is affected. Thus, it is crucial to determine the physical conditions of the molecular gas in powerful RGs to understand how radio sources may regulate the star formation in their host galaxies. We present deep Spitzer Infrared Spectrograph (IRS) high-resolution spectroscopy of eight nearby RGs that show fast HI outflows. Strikingly, all of these HI-outflow RGs have bright H2 mid-IR lines that cannot be accounted for by UV or X-ray heating. This strongly suggests that the radio jet, which drives the HI outflow, is also responsible for the shock excitation of the warm H2 gas. In addition, the warm H2 gas does not share the kinematics of the ionized/neutral gas. The mid-IR-ionized gas lines (with FWHM up to 1250 km s-1 for [Ne II] 12.8μm) are systematically broader than the H2 lines, which are resolved by the IRS in ≈60% of the detected lines (with FWHM up to 900 km s-1). In five sources, 3C 236, 3C 293, 3C 459, 4C 12.50, and PKS 1549-79, the [Ne II] 12.8μm line, and to a lesser extent the [Ne III] 15.5μm and [Ne V] 14.3μm lines, clearly exhibits blueshifted wings (up to -900 km s-1 with respect to the systemic velocity) that match well the kinematics of the outflowing HI or ionized gas. The H2 lines do not show these broad wings, except tentative detections in 4C 12.50, 3C 459, and PKS 1549-79. This shows that, contrary to the HI gas, the H2 gas is inefficiently coupled to the AGN jet-driven outflow of ionized gas. While the dissipation of a small fraction (<10%) of the jet kinetic power can explain the turbulent heating of the molecular gas, our data show that the bulk of the warm molecular gas is not expelled from these galaxies. [ABSTRACT FROM AUTHOR]

Published

2012

9. RESOLVING THE FAR-IR LINE DEFICIT: PHOTOELECTRIC HEATING AND FAR-IR LINE COOLING IN NGC 1097 AND NGC 4559.

Author

CROXALL, KEVIN V., SMITH, J. D., WOLFIRE, M. G., ROUSSEL, H., SANDSTROM, K. M., DRAINE, B. T., ANIANO, G., DALE, D. A., ARMUS, L., BEIRÃO, P., HELOU, G., BOLATTO, A. D., APPLETON, P. N., BRANDL, B. R., CALZETTI, D., CROCKER, A. F., GALAMETZ, M., GROVES, B. A., C.-N. HAO, and HUNT, L. K.

Subjects

GALAXIES, INTERSTELLAR gases, HYDROCARBONS, INTERSTELLAR medium, CLOUDS

Abstract

The physical state of interstellar gas and dust is dependent on the processes which heat and cool this medium. To probe heating and cooling of the interstellar medium over a large range of infrared surface brightness, on sub-kiloparsec scales, we employ line maps of [C II] 158 µm, [O I] 63 µm, and [N II] 122 µm in NGC 1097 and NGC 4559, obtained with the Photodetector Array Camera & Spectrometer on board Herschel. We matched new observations to existing Spitzer Infrared Spectrograph data that trace the total emission of polycyclic aromatic hydrocarbons (PAHs). We confirm at small scales in these galaxies that the canonical measure of photoelectric heating efficiency, ([C II] + [O I])/TIR, decreases as the far-infrared (far-IR) color, vfv(70 µm) vfv(100 µm), increases. In contrast, the ratio of far-IR cooling to total PAH emission, ([C II] + [O I])/PAH, is a near constant ~6% over a wide range of far-IR color, 0.5 < vfv(70 µm) vfv(100 µm) ≿ 0.95. In the warmest regions, where vfv(70 µm) vfv(100 µm) ≾ 0.95, the ratio ([C II] + [O I])/PAH drops rapidly to 4%. We derived representative values of the local ultraviolet radiation density, G0, and the gas density, nH, by comparing our observations to models of photodissociation regions. The ratio G0/nH, derived from fine-structure lines, is found to correlate with the mean dust-weighted starlight intensity, , derived from models of the IR spectral energy distribution. Emission from regions that exhibit a line deficit is characterized by an intense radiation field, indicating that small grains are susceptible to ionization effects. We note that there is a shift in the 7.7/11.3 µm PAH ratio in regions that exhibit a deficit in ([C II] + [O I])/PAH, suggesting that small grains are ionized in these environments. [ABSTRACT FROM AUTHOR]

Published

2012

10. HERSCHEL FAR-INFRARED AND SUBMILLIMETER PHOTOMETRY FOR THE KINGFISH SAMPLE OF NEARBY GALAXIES.

Author

Dale, D. A., Aniano, G., Engelbracht, C. W., Hinz, J. L., Krause, O., Montiel, E. J., Roussel, H., Appleton, P. N., Armus, L., Beirão, P., Bolatto, A. D., Brandl, B. R., Calzetti, D., Crocker, A. F., Croxall, K. V., Draine, B. T., Galametz, M., Gordon, K. D., Groves, B. A., and Hao, C. -N.

Subjects

GALAXIES, ASTRONOMY, PHOTOMETRY, DWARF stars, BROWN dwarf stars

Abstract

New far-infrared and submillimeter photometry from the Herschel Space Observatory, is presented for 61 nearby galaxies from the Key Insights on Nearby Galaxies: A Far-Infrared Survey with Herschel (KINGFISH) sample. The spatially integrated fluxes are largely consistent with expectations based on Spitzer far-infrared photometry and extrapolations to longer wavelengths using popular dust emission models. Dwarf irregular galaxies are notable exceptions, as already noted by other authors, as their 500 µm emission shows evidence for a submillimeter excess. In addition, the traction of dust heating attributed to intense radiation fields associated with photodissociation regions is found to be (21 ± 4)% larger when Herschel data are included in the analysis. Dust masses obtained from the dust emission models of Draine & Li are found to be on average nearly a factor of two higher than those based on single-temperature modified blackbodies, as single blackbody curves do not capture the full range of dust temperatures inherent to any galaxy. The discrepancy is largest for galaxies exhibiting the coolest far-infrared colors. [ABSTRACT FROM AUTHOR]

Published

2012

11. THE SPATIAL EXTENT OF (U)LIRGS IN THE MID-INFRARED. II. FEATURE EMISSION.

Author

DIAZ-SANTOS, T., CHARMANDARIS, V., ARMUS, L., STIERWALT, S., HAAN, S., MAZZARELLA, J. M., HOWELL, J. H., VEILLEUX, S., MURPHY, E. J., PETRIC, A. O., APPLETON, P., EVANS, A. S., SANDERS, D. B., and SURACE, J. A.

Subjects

POLYCYCLIC aromatic hydrocarbons, INFRARED spectroscopy, GALACTIC nuclei, STARBURSTS, STELLAR luminosity function

Abstract

We present results from the second part of our analysis of the extended mid-infrared (MIR) emission of the GOALS sample based on 5-14 µm low-resolution spectra obtained with the Infrared Spectrograph on Spitzer. We calculate the fraction of extended emission (FEE) as a function of wavelength for all galaxies in the sample, FEEλ, defined as the fraction of the emission that originates outside of the unresolved central component of a source, and spatially separate the MIR spectrum of a galaxy into its nuclear and extended components. We find that the [Ne II] 12.81 µm emission line is as compact as the hot dust MIR continuum, while the polycyclic aromatic hydrocarbon (PAH) emission is more extended. In addition, the 6.2 and 7.7 µm PAH emission is more compact than that of the 11.3 µm PAH, which is consistent with the formers being enhanced in a more ionized medium. The presence of an active galactic nucleus (AGN) or a powerful nuclear starburst increases the compactness and the luminosity surface density of the hot dust MIR continuum, but has a negligible effect on the spatial extent of the PAH emission on kpc-scales. Furthermore, it appears that both processes, AGN and/or nuclear starburst, are indistinguishable in terms of how they modify the integrated PAH-to-continuum ratio of the FEE in (ultra)luminous infrared galaxies ((U)LIRGs). Globally, the 5-14 µm spectra of the extended emission component are homogeneous for all galaxies in the GOALS sample. This suggests that, independently of the spatial distribution of the various MIR features, the physical properties of star formation occurring at distances farther than 1.5 kpc from the nuclei of (U)LIRGs are very similar, resembling local star-forming galaxies with LIR < 1011 L⊙, as well as star-formation-dominated ULIRGs at z ~ 2. In contrast, the MIR spectra of the nuclear component of local ULIRGs and LIRGs are very diverse. These results imply that the observed variety of the integrated MIR properties of local (U)LIRGs arise, on average, only from the processes that are taking place in their cores. [ABSTRACT FROM AUTHOR]

Published

2011

12. THE SPATIAL EXTENT OF (U)LIRGs IN THE MID-INFRARED. I. THE CONTINUUM EMISSION.

Author

Díaz-Santos, T., Charmandaris, V., Armus, L., Petric, A. O., Howell, J. H., Murphy, E. J., Mazzarella, J. M., Veilleux, S., Bothun, G., Inami, H., Appleton, P. N., Evans, A. S., Haan, S., Marshall, J. A., Sanders, D. B., Stierwalt, S., and Surace, J. A.

Published

2010

13. The Role of Galaxy Interactions and Mergers in Star Formation at z ≤ 1.3: Mid-Infrared Properties in the Spitzer First Look SurveySome of the data presented herein were obtained at the W. M. Keck Observatory, which is operated as a scientific partnership among the California Institute of Technology, the University of California, and the National Aeronautics and Space Administration. The observatory was made possible by the generous financial support of the W. M. Keck Foundation.

Author

Bridge, C. R., Appleton, P. N., Conselice, C. J., Choi, P. I., Armus, L., Fadda, D., Laine, S., Marleau, F. R., Carlberg, R. G., Helou, G., and Yan, L.

Published

2007

14. Nonnuclear Hyper/Ultraluminous X-Ray Sources in the Starbursting Cartwheel Ring Galaxy.

Author

Gao, Yu, Wang, Q. Daniel, Appleton, P. N., and Lucas, Ray A.

Published

2003

15. Mid-Infrared and CO Observations of the Infrared/X-Ray Luminous Seyfert 1 Galaxy NGC 985: The Making or Breaking of a ULIRG?

Author

Appleton, P. N., Charmandaris, V., Gao, Yu, Combes, F., Ghigo, F., Horellou, C., and Mirabel, I. F.

Published

2002

16. Erratum: “The Mid-Infrared Properties of Starburst Galaxies from Spitzer-IRS Spectroscopy” (ApJ, 653, 1129 [2006]).

Author

Brandl, B. R., Bernard-Salas, J., Spoon, H. W. W., Devost, D., Sloan, G. C., Guilles, S., Wu, Y., Houck, J. R., Weedman, D. W., Armus, L., Appleton, P. N., Soifer, B. T., Charmandaris, V., Hao, L., Marshall, J. A., Higdon, S. J., and Herter, T. L.

Published

2007

17. JET-ISM INTERACTION IN THE RADIO GALAXY 3C 293: JET-DRIVEN SHOCKS HEAT ISM TO POWER X-RAY AND MOLECULAR H2 EMISSION.

Author

Lanz, L., Ogle, P. M., Evans, D., Appleton, P. N., Guillard, P., and Emonts, B.

Subjects

GALAXIES, X-rays, NUCLEAR size (Physics), HYDROGEN, HEAT transfer

Abstract

We present a 70 ks Chandra observation of the radio galaxy 3C 293. This galaxy belongs to the class of molecular hydrogen emission galaxies (MOHEGs) that have very luminous emission from warm molecular hydrogen. In radio galaxies, the molecular gas appears to be heated by jet-driven shocks, but exactly how this mechanism works is still poorly understood. With Chandra, we observe X-ray emission from the jets within the host galaxy and along the 100 kpc radio jets. We model the X-ray spectra of the nucleus, the inner jets, and the X-ray features along the extended radio jets. Both the nucleus and the inner jets show evidence of 107 K shock-heated gas. The kinetic power of the jets is more than sufficient to heat the X-ray emitting gas within the host galaxy. The thermal X-ray and warm H2 luminosities of 3C 293 are similar, indicating similar masses of X-ray hot gas and warm molecular gas. This is consistent with a picture where both derive from a multiphase, shocked interstellar medium (ISM). We find that radio-loud MOHEGs that are not brightest cluster galaxies (BCGs), like 3C 293, typically have and , whereas MOHEGs that are BCGs have and . The more massive, virialized, hot atmosphere in BCGs overwhelms any direct X-ray emission from current jet-ISM interaction. On the other hand, in the Spiderweb BCG at z = 2, which resides in an unvirialized protocluster and hosts a powerful radio source. Over time, jet-ISM interaction may contribute to the establishment of a hot atmosphere in BCGs and other massive elliptical galaxies. [ABSTRACT FROM AUTHOR]

Published

2015

18. ALMA OBSERVATIONS OF WARM DENSE GAS IN NGC 1614—BREAKING OF THE STAR FORMATION LAW IN THE CENTRAL KILOPARSEC.

Author

Xu, C. K., Cao, C., Lu, N., Gao, Y., Diaz-Santos, T., Herrero-Illana, R., Meijerink, R., Privon, G., Zhao, Y. -H, Evans, A. S., König, S., Mazzarella, J. M., Aalto, S., Appleton, P., Armus, L., Charmandaris, V., Chu, J., Haan, S., Inami, H., and Murphy, E. J.

Subjects

INTERPLANETARY dust, GALAXIES, STELLAR luminosity function, GALACTIC nuclei, STAR formation

Abstract

We present ALMA Cycle-0 observations of the CO (6-5) line emission and of the 435 μm dust continuum emission in the central kiloparsec of NGC 1614, a local luminous infrared galaxy at a distance of 67.8 Mpc (). The CO emission is well resolved by the ALMA beam (0.″26 × 0.″20) into a circumnuclear ring, with an integrated flux of fCO(6-5) = 898 (± 153) Jy km s–1, which is 63(± 12)% of the total CO (6-5) flux measured by Herschel. The molecular ring, located between from the nucleus, looks clumpy and includes seven unresolved (or marginally resolved) knots with median velocity dispersion of ∼40 km s–1. These knots are associated with strong star formation regions with ΣSFR ∼ 100 M☼ yr–1 kpc–2 and . The non-detections of the nucleus in both the CO (6-5) line emission and the 435 μm continuum rule out, with relatively high confidence, a Compton-thick active galactic nucleus in NGC 1614. Comparisons with radio continuum emission show a strong deviation from an expected local correlation between ΣGas and ΣSFR, indicating a breakdown of the Kennicutt-Schmidt law on the linear scale of ∼100 pc. [ABSTRACT FROM AUTHOR]

Published

2015

19. ACCRETION-INHIBITED STAR FORMATION IN THE WARM MOLECULAR DISK OF THE GREEN-VALLEY ELLIPTICAL GALAXY NGC 3226?

Author

Appleton, P. N., Mundell, C., Bitsakis, T., Lacy, M., Alatalo, K., Armus, L., Charmandaris, V., Duc, P. -A, Lisenfeld, U., and Ogle, P.

Subjects

*ASTRONOMICAL photometry, *GALAXIES, *ULTRAVIOLET radiation, *INTERSTELLAR medium

Abstract

We present archival Spitzer photometry and spectroscopy and Herschel photometry of the peculiar “Green Valley” elliptical galaxy NGC 3226. The galaxy, which contains a low-luminosity active galactic nucleus (AGN), forms a pair with NGC 3227 and is shown to lie in a complex web of stellar and H I filaments. Imaging at 8 and 16 μm reveals a curved plume structure 3 kpc in extent, embedded within the core of the galaxy and coincident with the termination of a 30 kpc long H I tail. In situ star formation associated with the infrared (IR) plume is identified from narrowband Hubble Space Telescope (HST) imaging. The end of the IR plume coincides with a warm molecular hydrogen disk and dusty ring containing 0.7-1.1 × 107M☼ detected within the central kiloparsec. Sensitive upper limits to the detection of cold molecular gas may indicate that a large fraction of the H2 is in a warm state. Photometry derived from the ultraviolet (UV) to the far-IR shows evidence for a low star-formation rate of ∼0.04 M☼ yr–1 averaged over the last 100 Myr. A mid-IR component to the spectral energy distribution (SED) contributes ∼20% of the IR luminosity of the galaxy, and is consistent with emission associated with the AGN. The current measured star formation rate is insufficient to explain NGC 3226's global UV-optical “green” colors via the resurgence of star formation in a “red and dead” galaxy. This form of “cold accretion” from a tidal stream would appear to be an inefficient way to rejuvenate early-type galaxies and may actually inhibit star formation. [ABSTRACT FROM AUTHOR]

Published

2014

20. STRONG FAR-INFRARED COOLING LINES, PECULIAR CO KINEMATICS, AND POSSIBLE STAR-FORMATION SUPPRESSION IN HICKSON COMPACT GROUP 57.

Author

Alatalo, K., Appleton, P. N., Lisenfeld, U., Bitsakis, T., Guillard, P., Charmandaris, V., Cluver, M., Dopita, M. A., Freeland, E., Jarrett, T., Kewley, L. J., Ogle, P. M., Rasmussen, J., Rich, J. A., Verdes-Montenegro, L., Xu, C. K., and Yun, M.

Subjects

*STAR formation, *STELLAR evolution, *GALACTIC evolution, *EVOLUTIONARY theories, *GALAXY formation

Abstract

We present [C II] and [O I] observations from Herschel and CO(1-0) maps from the Combined Array for Research in Millimeter Astronomy (CARMA) of the Hickson compact group HCG 57, focusing on the galaxies HCG 57a and HCG 57d. HCG 57a has been previously shown to contain enhanced quantities of warm molecular hydrogen consistent with shock or turbulent heating. Our observations show that HCG 57d has strong [C II] emission compared to LFIR and weak CO(1-0), while in HCG 57a, both the [C II] and CO(1-0) are strong. HCG 57a lies at the upper end of the normal distribution of the [C II]/CO and [C II]/FIR ratios, and its far-infrared (FIR) cooling supports a low-density, warm, diffuse gas that falls close to the boundary of acceptable models of a photon-dominated region. However, the power radiated in the [C II] and warm H2 emissions have similar magnitudes, as seen in other shock-dominated systems and predicted by recent models. We suggest that shock heating of the [C II] is a viable alternative to photoelectric heating in violently disturbed, diffuse gas. The existence of shocks is also consistent with the peculiar CO kinematics in the galaxy, indicating that highly noncircular motions are present. These kinematically disturbed CO regions also show evidence of suppressed star formation, falling a factor of 10-30 below normal galaxies on the Kennicutt-Schmidt relation. We suggest that the peculiar properties of both galaxies are consistent with a highly dissipative, off-center collisional encounter between HCG 57d and 57a, creating ring-like morphologies in both systems. Highly dissipative gas-on-gas collisions may be more common in dense groups because of the likelihood of repeated multiple encounters. The possibility of shock-induced star-formation suppression may explain why a subset of these HCG galaxies has been found previously to fall in the mid-infrared green valley. [ABSTRACT FROM AUTHOR]

Published

2014

21. A FAR-IR VIEW OF THE STARBURST-DRIVEN SUPERWIND IN NGC 2146.

Author

Kreckel, K., Armus, L., Groves, B., Lyubenova, M., Díaz-Santos, T., Schinnerer, E., Appleton, P., Croxall, K. V., Dale, D. A., Hunt, L. K., Beirão, P., Bolatto, A. D., Calzetti, D., Meyer, J. Donovan, Draine, B. T., Hinz, J., Kennicutt, R. C., Meidt, S., Murphy, E. J., and Smith, J. D. T.

Subjects

GALAXIES, STARBURSTS, SOLAR wind, REDSHIFT, STAR observations

Abstract

NGC 2146, a nearby luminous infrared galaxy, presents evidence for outflows along the disk minor axis in all gas phases (ionized, neutral atomic, and molecular). We present an analysis of the multi-phase, starburst-driven superwind in the central 5 kpc as traced in spatially resolved spectral line observations, using far-IR Herschel PACS spectroscopy, to probe the effects on the atomic and ionized gas, and optical integral field spectroscopy to examine the ionized gas through diagnostic line ratios. We observe an increased ∼250 km s–1 velocity dispersion in the [O I] 63 μm, [O III] 88 μm, [N II] 122 μm, and [C II] 158 μm fine-structure lines that is spatially coincident with high excitation gas above and below the disk. We model this with a slow ∼200 km s–1 shock and trace the superwind to the edge of our field of view 2.5 kpc above the disk. We present new SOFIA 37 μm observations to explore the warm dust distribution, and detect no clear dust entrainment in the outflow. The stellar kinematics appear decoupled from the regular disk rotation seen in all gas phases, consistent with a recent merger event disrupting the system. We consider the role of the superwind in the evolution of NGC 2146 and speculate on the evolutionary future of the system. Our observations of NGC 2146 in the far-IR allow an unobscured view of the wind, crucial for tracing the superwind to the launching region at the disk center, and provide a local analog for future ALMA observations of outflows in high-redshift systems. [ABSTRACT FROM AUTHOR]

Published

2014

22. ALMA OBSERVATIONS OF WARM MOLECULAR GAS AND COLD DUST IN NGC 34.

Author

Xu, C. K., Cao, C., Lu, N., Gao, Y., Werf, P. van der, Evans, A. S., Mazzarella, J. M., Chu, J., Haan, S., Diaz-Santos, T., Meijerink, R., Zhao, Y.-H., Appleton, P., Armus, L., Charmandaris, V., Lord, S., Murphy, E. J., Sanders, D. B., Schulz, B., and Stierwalt, S.

Subjects

GALAXIES, GALACTIC nuclei, STARBURSTS, ASTRONOMICAL research, ASTROPHYSICS research

Abstract

We present Atacama Large Millimeter Array (ALMA) Cycle-0 observations of the CO (6-5) line emission (rest-frame frequency = 691.473 GHz) and of the 435 μm dust continuum emission in the nuclear region of NGC 34, a local luminous infrared galaxy at a distance of 84 Mpc (1″ = 407 pc) which contains a Seyfert 2 active galactic nucleus (AGN) and a nuclear starburst. The CO emission is well resolved by the ALMA beam (0.″26 × 0.″23), with an integrated flux of fCO(6-5) = 1004 (± 151) Jy km s–1. Both the morphology and kinematics of the CO (6-5) emission are rather regular, consistent with a compact rotating disk with a size of 200 pc. A significant emission feature is detected on the redshifted wing of the line profile at the frequency of the H13CN (8-7) line, with an integrated flux of 17.7 ± 2.1(random) ± 2.7(systematic) Jy km s–1. However, it cannot be ruled out that the feature is due to an outflow of warm dense gas with a mean velocity of 400 km s–1. The continuum is resolved into an elongated configuration, and the observed flux corresponds to a dust mass of Mdust = 106.97 ± 0.13M☼. An unresolved central core (radius ≃ 50 pc) contributes 28% of the continuum flux and 19% of the CO (6-5) flux, consistent with insignificant contributions of the AGN to both emissions. Both the CO (6-5) and continuum spatial distributions suggest a very high gas column density (≳ 104M☼ pc–2) in the nuclear region at radius ≲ 100 pc. [ABSTRACT FROM AUTHOR]

Published

2014

23. SHOCKS AND STAR FORMATION IN STEPHAN'S QUINTET. I. GEMINI SPECTROSCOPY OF Hα-BRIGHT KNOTS.

Author

Konstantopoulos, I. S., Appleton, P. N., Guillard, P., Trancho, G., Cluver, M. E., Bastian, N., Charlton, J. C., Fedotov, K., Gallagher, S. C., Smith, L. J., and Struck, C. J.

Subjects

*GALAXIES, *STAR formation, *SHOCK waves, *SUPERNOVAE, *COMETS, *RADIATION

Abstract

We present a Gemini-GMOS spectroscopic study of Hubble Space Telescope(HST)-selected Hα-emitting regions in Stephan's Quintet (HCG 92), a nearby compact galaxy group, with the aim of disentangling the processes of shock-induced heating and star formation in its intra-group medium. The ≈40 sources are distributed across the system, but most densely concentrated in the ∼kiloparsec-long shock region. Their spectra neatly divide them into narrow- and broad-line emitters, and we decompose the latter into three or more emission peaks corresponding to spatial elements discernible in HST imaging. The emission-line ratios of the two populations of Hα-emitters confirm their nature as H II regions (90% of the sample) or molecular gas heated by a shock front propagating at ≲300 km s–1. Their redshift distribution reveals interesting three-dimensional structure with respect to gas-phase baryons, with no H II regions associated with shocked gas, no shocked regions in the intruder galaxy NGC 7318B, and a sharp boundary between shocks and star formation. We conclude that star formation is inhibited substantially, if not entirely, in the shock region. Attributing those H II regions projected against the shock to the intruder, we find a lopsided distribution of star formation in this galaxy, reminiscent of pileup regions in models of interacting galaxies. The Hα luminosities imply mass outputs, star formation rates, and efficiencies similar to nearby star-forming regions. Two large knots are an exception to this, being comparable in stellar output to the prolific 30 Doradus region. We also examine Stephan's Quintet in the context of compact galaxy group evolution, as a paradigm for intermittent star formation histories in the presence of a rich, X-ray-emitting intra-group medium. All spectra are provided as supplemental materials. [ABSTRACT FROM AUTHOR]

Published

2014

24. DISCOVERY OF “WARM DUST” GALAXIES IN CLUSTERS AT z ∼ 0.3: EVIDENCE FOR STRIPPING OF COOL DUST IN THE DENSE ENVIRONMENT?

Author

Rawle, T. D., Rex, M., Egami, E., Chung, S. M., Pérez-González, P. G., Smail, I., Walth, G., Altieri, B., Appleton, P., Alba, A. Berciano, Blain, A. W., Dessauges-Zavadsky, M., Fadda, D., Gonzalez, A. H., Pereira, M. J., Valtchanov, I., van der Werf, P. P., and Zemcov, M.

Subjects

GALAXY clusters, SUPERCLUSTERS, STAR formation, STELLAR evolution, EVOLUTIONARY theories

Abstract

Using far-infrared imaging from the “Herschel Lensing Survey,” we derive dust properties of spectroscopically confirmed cluster member galaxies within two massive systems at z ∼ 0.3: the merging Bullet Cluster and the more relaxed MS2137.3-2353. Most star-forming cluster sources (∼90%) have characteristic dust temperatures similar to local field galaxies of comparable infrared (IR) luminosity (Tdust ∼ 30 K). Several sub-luminous infrared galaxy (LIRG; LIR < 1011L☼) Bullet Cluster members are much warmer (Tdust > 37 K) with far-infrared spectral energy distribution (SED) shapes resembling LIRG-type local templates. X-ray and mid-infrared data suggest that obscured active galactic nuclei do not contribute significantly to the infrared flux of these “warm dust” galaxies. Sources of comparable IR luminosity and dust temperature are not observed in the relaxed cluster MS2137, although the significance is too low to speculate on an origin involving recent cluster merging. “Warm dust” galaxies are, however, statistically rarer in field samples (>3σ), indicating that the responsible mechanism may relate to the dense environment. The spatial distribution of these sources is similar to the whole far-infrared bright population, i.e., preferentially located in the cluster periphery, although the galaxy hosts tend toward lower stellar masses (M* < 1010M☼). We propose dust stripping and heating processes which could be responsible for the unusually warm characteristic dust temperatures. A normal star-forming galaxy would need 30%-50% of its dust removed (preferentially stripped from the outer reaches, where dust is typically cooler) to recover an SED similar to a “warm dust” galaxy. These progenitors would not require a higher IR luminosity or dust mass than the currently observed normal star-forming population. [ABSTRACT FROM AUTHOR]

Published

2012

25. A STUDY OF HEATING AND COOLING OF THE ISM IN NGC 1097 WITH HERSCHEL-PACS AND SPITZER-IRS.

Author

Beirão, P., Armus, L., Helou, G., Appleton, P. N., Smith, J. -D T., Croxall, K. V., Murphy, E. J., Dale, D. A., Draine, B. T., Wolfire, M. G., Sandstrom, K. M., Aniano, G., Bolatto, A. D., Groves, B., Brandl, B. R., Schinnerer, E., Crocker, A. F., Hinz, J. L., Rix, H. -W, and Kennicutt, R. C.

Subjects

SEYFERT galaxies, ACTIVE galaxies, ACTIVE galactic nuclei, STARBURSTS, ASTROPHYSICS research

Abstract

NGC 1097 is a nearby Seyfert 1 galaxy with a bright circumnuclear starburst ring, a strong large-scale bar, and an active nucleus. We present a detailed study of the spatial variation of the far-infrared (FIR) [C II]158 μm and [O I]63 μm lines and mid-infrared H2 emission lines as tracers of gas cooling, and of the polycyclic aromatic hydrocarbon (PAH) bands as tracers of the photoelectric heating, using Herschel-PACS and Spitzer-IRS infrared spectral maps. We focus on the nucleus and the ring, and two star-forming regions (Enuc N and Enuc S). We estimated a photoelectric gas heating efficiency ([C II]158 μm+[O I]63 μm)/PAH in the ring about 50% lower than in Enuc N and S. The average 11.3/7.7 μm PAH ratio is also lower in the ring, which may suggest a larger fraction of ionized PAHs, but no clear correlation with [C II]158 μm/PAH(5.5-14 μm) is found. PAHs in the ring are responsible for a factor of two more [C II]158 μm and [O I]63 μm emission per unit mass than PAHs in the Enuc S. spectral energy distribution (SED) modeling indicates that at most 25% of the FIR power in the ring and Enuc S can come from high-intensity photodissociation regions (PDRs), in which case G0 ∼ 102.3 and nH ∼ 103.5 cm–3 in the ring. For these values of G0 and nH, PDR models cannot reproduce the observed H2 emission. Much of the H2 emission in the starburst ring could come from warm regions in the diffuse interstellar medium that are heated by turbulent dissipation or shocks. [ABSTRACT FROM AUTHOR]

Published

2012

26. DETECTION OF POWERFUL MID-IR H2 EMISSION IN THE BRIDGE BETWEEN THE TAFFY GALAXIES.

Author

Peterson, B. W., Appleton, P. N., Helou, G., Guillard, P., Jarrett, T. H., Cluver, M. E., Ogle, P., Struck, C., and Boulanger, F.

Subjects

*GALAXIES, *INTERSTELLAR medium, *POLYCYCLIC aromatic compounds, *AROMATIC compounds, *ASTROPHYSICS research

Abstract

We report the detection of strong, resolved emission from warm H2 in the Taffy galaxies and bridge. Relative to the continuum and faint polyclic aromatic hydrocarbon (PAH) emission, the H2 emission is the strongest in the connecting bridge, approaching L(H2)/L(PAH 8 μm) = 0.1 between the two galaxies, where the purely rotational lines of H2 dominate the mid-infrared spectrum in a way very reminiscent of the group-wide shock in the interacting group Stephan's Quintet (SQ). The surface brightness in the 0-0 S(0) and S(1) H2 lines in the bridge is more than twice that observed at the center of the SQ shock. We observe a warm H2 mass of 4.2 × 108M☼ in the bridge, but taking into account the unobserved bridge area, the total warm mass is likely to be twice this value. We use excitation diagrams to characterize the warm molecular gas, finding an average surface mass of ∼5 × 106M☼ kpc–2 and typical excitation temperatures of 150-175 K. H2 emission is also seen in the galaxy disks, although there the emission is more consistent with normal star-forming galaxies. We investigate several possible heating mechanisms for the bridge gas but favor the conversion of kinetic energy from the head-on collision via turbulence and shocks as the main heating source. Since the cooling time for the warm H2 is short (∼5000 yr), shocks must be permeating the molecular gas in the bridge region in order to continue heating the H2. [ABSTRACT FROM AUTHOR]

Published

2012

27. ULTRALUMINOUS STAR-FORMING GALAXIES AND EXTREMELY LUMINOUS WARM MOLECULAR HYDROGEN EMISSION AT z = 2.16 IN THE PKS 1138–26 RADIO GALAXY PROTOCLUSTER.

Author

Ogle, P., Davies, J. E., Appleton, P. N., Bertincourt, B., Seymour, N., and Helou, G.

Subjects

GALAXY clusters, STAR formation, REDSHIFT, BLACK holes, ASTROPHYSICS research

Abstract

A deep Spitzer Infrared Spectrograph map of the PKS 1138–26 galaxy protocluster reveals ultraluminous polycyclic aromatic hydrocarbon (PAH) emission from obscured star formation in three protocluster galaxies, including Hα-emitter (HAE) 229, HAE 131, and the central Spiderweb Galaxy. Star formation rates of ∼500-1100 M☼ yr–1 are estimated from the 7.7 μm PAH feature. At such prodigious formation rates, the galaxy stellar masses will double in 0.6-1.1 Gyr. We are viewing the peak epoch of star formation for these protocluster galaxies. However, it appears that extinction of Hα is much greater (up to a factor of 40) in the two ULIRG HAEs compared to the Spiderweb. This may be attributed to different spatial distributions of star formation-nuclear star formation in the HAEs versus extended star formation in accreting satellite galaxies in the Spiderweb. We find extremely luminous mid-IR rotational line emission from warm molecular hydrogen in the Spiderweb Galaxy, with L(H2 0-0 S(3)) = 1.4 × 1044 erg s–1 (3.7 × 1010L☼), ∼20 times more luminous than any previously known H2 emission galaxy (MOHEG). Depending on the temperature, this corresponds to a very large mass of >9 × 106-2 × 109M☼ of T > 300 K molecular gas, which may be heated by the PKS 1138–26 radio jet, acting to quench nuclear star formation. There is >8 times more warm H2 at these temperatures in the Spiderweb than what has been seen in low-redshift (z < 0.2) radio galaxies, indicating that the Spiderweb may have a larger reservoir of molecular gas than more evolved radio galaxies. This is the highest redshift galaxy yet in which warm molecular hydrogen has been directly detected. [ABSTRACT FROM AUTHOR]

Published

2012

28. MID-INFRARED SPECTRAL DIAGNOSTICS OF LUMINOUS INFRARED GALAXIES.

Author

Petric, A. O., Armus, L., Howell, J., Chan, B., Mazzarella, J. M., Evans, A. S., Surace, J. A., Sanders, D., Appleton, P., Charmandaris, V., Díaz-Santos, T., Frayer, D., Haan, S., Inami, H., Iwasawa, K., Kim, D., Madore, B., Marshall, J., Spoon, H., and Stierwalt, S.

Published

2011

29. ACTIVE DISK BUILDING IN A LOCAL H I-MASSIVE LIRG: THE SYNERGY BETWEEN GAS, DUST, AND STAR FORMATION.

Author

Cluver, M. E., Jarrett, T. H., Kraan-Korteweg, R. C., Koribalski, B. S., Appleton, P. N., Melbourne, J., Emonts, B., and Woudt, P. A.

Published

2010

30. DUST EMISSION AND STAR FORMATION IN STEPHAN'S QUINTET.

Author

Natale, G., Tuffs, R. J., Xu, C. K., Popescu, C. C., Fischera, J., Lisenfeld, U., Lu, N., Appleton, P., Dopita, M., Duc, P. -A, Gao, Y., Reach, W., Sulentic, J., and Yun, M.

Published

2010

31. JET-POWERED MOLECULAR HYDROGEN EMISSION FROM RADIO GALAXIES.

Author

Ogle, Patrick, Boulanger, Francois, Guillard, Pierre, Evans, Daniel A., Antonucci, Robert, Appleton, P. N., Nesvadba, Nicole, and Leipski, Christian

Published

2010

32. COLA. III. RADIO DETECTION OF ACTIVE GALACTIC NUCLEUS IN COMPACT MODERATE LUMINOSITY INFRARED GALAXIES.

Author

Parra, R., Conway, J. E., Aalto, S., Appleton, P. N., Norris, R. P., Pihlström, Y. M., and Kewley, L. J.

Published

2010

33. POWERFUL H2 LINE COOLING IN STEPHAN's QUINTET. I. MAPPING THE SIGNIFICANT COOLING PATHWAYS IN GROUP-WIDE SHOCKS.

Author

Cluver, M. E., Appleton, P. N., Boulanger, F., Guillard, P., Ogle, P., Duc, P. -A, Lu, N., Rasmussen, J., Reach, W. T., Smith, J. D., Tuffs, R., Xu, C. K., and Yun, M. S.

Published

2010

34. A SPITZER UNBIASED ULTRADEEP SPECTROSCOPIC SURVEY.

Author

Bertincourt, B., Helou, G., Appleton, P., Ogle, P., Lagache, G., Brooke, T., Smith, J-D, Sheth, K., Dale, D., Harwit, M., Puget, J-L, and Roussel, H.

Published

2009

35. Spatially Resolved Spitzer IRS Spectroscopy of the Central Region of M82.

Author

Beirão, P., Brandl, B. R., Appleton, P. N., Groves, B., Armus, L., Förster Schreiber, N. M., Smith, J. D., Charmandaris, V., and Houck, J. R.

Published

2008

36. Shocked Molecular Hydrogen in the 3C 326 Radio Galaxy System.

Author

Ogle, Patrick, Antonucci, Robert, Appleton, P. N., and Whysong, David

Published

2007

37. The Mid-Infrared Properties of Starburst Galaxies from Spitzer-IRS Spectroscopy.

Author

Brandl, B. R., Bernard-Salas, J., Spoon, H. W. W., Devost, D., Sloan, G. C., Guilles, S., Wu, Y., Houck, J. R., Weedman, D. W., Armus, L., Appleton, P. N., Soifer, B. T., Charmandaris, V., Hao, L., Higdon, J. A. Marshall, S. J., and Herter, T. L.

Published

2006

38. Star Formation Rates and Extinction Properties of IR-luminous Galaxies in the Spitzer First Look Survey.

Author

Choi, P. I., Yan, L., Im, M., Helou, G., Soifer, B. T., Storrie-Lombardi, L. J., Chary, R., Teplitz, H. I., Fadda, D., Marleau, F. R., Lacy, M., Wilson, G., Appleton, P. N., Frayer, D. T., and Surace, J. A.

Published

2006

39. COLA. II. Radio and Spectroscopic Diagnostics of Nuclear Activity in Galaxies.

Author

Corbett, E. A., Kewley, L., Appleton, P. N., Charmandaris, V., Dopita, M. A., Heisler, C. A., Norris, R. P., Zezas, A., and Marston, A.

Published

2003

40. First Results from the COLA Project: The Radio-Far-Infrared Correlation and Compact Radio Cores in Southern COLA Galaxies.

Author

Corbett, E. A., Norris, R. P., Heisler, C. A., Dopita, M. A., Appleton, P., Struck, C., Murphy, T., Marston, A., Charmandaris, V., Kewley, L., and Zezas, A. L.

Published

2002

41. The H I and Ionized Gas Disk of the Seyfert Galaxy NGC 1144 = Arp 118: A Violently Interacting Galaxy with Peculiar Kinematics.

Author

Bransford, M. A., Appleton, P. N., McCain, C. F., and Freeman, K. C.

Published

1999

42. Radio-luminous Southern Seyfert Galaxies. I. Radio Images and Selected Optical/Near-Infrared Spectroscopy.

Author

Bransford, M. A., Appleton, P. N., Heisler, C. A., Norris, R. P., and Marston, A. P.

Published

1998