Your search keyword '"interacting galaxies"' showing total 158 results

1. Energy Evolution in the Progenitor of Galaxy Shells: A Semi-analytical Model.

Author

Guo, Beibei, Wu, Xufen, Zhao, HongSheng, and Fan, Lulu

Subjects

*ANGULAR momentum (Mechanics), *DWARF galaxies, *GALAXY mergers, *ELLIPTICAL galaxies, *GALACTIC evolution

Abstract

The stellar shells surrounding an elliptical galaxy, as remnants of a dwarf galaxy disrupted during merging, reveal the distribution of energy and angular momentum of the progenitor dwarf galaxy. We develop a semi-analytical model to describe the changes in energy Δ E i and angular momentum Δ Lz i for particles during the first infall. We show that these changes, induced by the self-gravity of the progenitor, are important in broadening the initial energy distribution of the Plummer or Hernquist progenitor model. Consequently, these changes are crucial in shaping the shells. In the freefall stage following the disintegration of the progenitor potential, particles are no longer bound by self-gravity but move within the gravitational potential of the target galaxy. We investigate the relationship between the radial period and the energy of particles undergoing radial motion. We show that an accurate model of the energy range of the dwarf galaxy at disruption is essential to predict the number of observable shells. [ABSTRACT FROM AUTHOR]

Published

2024

2. Explaining the photometric and spectroscopic properties of The Sip-39 galaxy pair.

Author

Al-baqir, Haydar R. and Ahmed, Abdullah K.

Subjects

GALACTIC magnitudes, GALAXIES, DATA release, IMAGE analysis, STARS

Abstract

Copyright of Baghdad Science Journal is the property of Republic of Iraq Ministry of Higher Education & Scientific Research (MOHESR) and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

3. Introducing the Condor Array Telescope. V. Deep Broad- and Narrowband Imaging Observations of the M81 Group

Author

Kenneth M. Lanzetta, Stefan Gromoll, Michael M. Shara, David Valls-Gabaud, Frederick M. Walter, and John K. Webb

Subjects

Galaxies, Galaxy groups, Galaxy interactions, Galaxy mergers, Galaxy photometry, Interacting galaxies, Astrophysics, QB460-466

Abstract

We used the Condor Array Telescope to obtain deep imaging observations through the luminance broadband and He ii 468.6 nm, [O iii ] 500.7 nm, He i 587.5 nm, H α , [N ii ] 658.4 nm, and [S ii ] 671.6 nm narrowband filters of an extended region comprising 13 “Condor fields” spanning ≈ 8 × 8 deg ^2 on the sky centered near M81 and M82. Here we describe the acquisition and processing of these observations, which together constitute unique very deep imaging observations of a large portion of the M81 Group through a complement of broad- and narrowband filters. The images are characterized by an intricate web of faint, diffuse, continuum produced by starlight scattered from Galactic cirrus, and all prominent cirrus features identified in the broadband image can also be identified in the narrowband images. We subtracted the luminance image from the narrowband images to leave, more or less, only line emission in the difference images, and we masked regions of the resulting images around stars at an isophotal limit. The difference images exhibit extensive extended structures of ionized gas in the direction of the M81 Group, from known galaxies of the M81 Group, clouds of gas, filamentary structures, and apparent or possible bubbles or shells. Specifically, the difference images show a remarkable filament known as the “Ursa Major Arc;” a remarkable network of criss-crossed filaments between M81 and NGC 2976, some of which intersect and overlap the Ursa Major Arc; and details of a “giant shell of ionized gas.”

Published

2025

4. Inspecting PGC 165324 and PGC 977941 Galaxies Using a Combination of Photometric and Spectroscopic Methods.

Author

Al-baqir, Haydar R. and Ahmed, Abdullah K.

Subjects

*GALAXY mergers, *GALACTIC magnitudes, *GALAXIES, *ASTRONOMICAL surveys, *DATA release

Abstract

Photometric and spectroscopic approaches were utilized to examine the two galaxies, PGC 165324 and PGC 977941. Data releases (DR7 and DR17) from "The Sloan Digital Sky Survey (SDSS)” were employed to acquire the observed data. Then, ellipsoids were fitted via employing the Image Reduction and Analysis Facility (IRAF) with utilising STSDAS Library, the ELLIPS task. Along with the astrometric characteristics, the surfaces’ brightness of the galaxies PGC 165324 and PGC 977941, as well as their magnitudes, cumulative flux, central axis position angles, ellipticities, vertical and horizontal shifts, isophotal shape variables (B4), and also the star-forming rates (SFRs), were analysed and evaluated. It was indicated that the two galaxies, are members of a close pair galaxy system; in addition, they are considered a physical system; the PGC 165324 galaxy was a merging galaxy with a higher SFR. It was likely that the PGC 977941 had separated itself from the galaxy collision and drifted away. [ABSTRACT FROM AUTHOR]

Published

2024

5. Discovery of a Rare Group of Dwarf Galaxies in the Local Universe

Author

Sanjaya Paudel, Cristiano G. Sabiu, Suk-Jin Yoon, Pierre-Alain Duc, Jaewon Yoo, and Oliver Müller

Subjects

Interacting galaxies, Dwarf galaxies, Galaxy groups, Astrophysics, QB460-466

Abstract

We report the discovery of a rare isolated group of five dwarf galaxies located at z = 0.0086 ( D = 36 Mpc). All member galaxies are star forming, blue, and gas rich, with g − r indices ranging from 0.2 to 0.6 mag, and two of them show signs of ongoing mutual interaction. The most massive member of the group has a stellar mass that is half of the Small Magellanic Cloud stellar mass, and the median stellar mass of the group members is 7.87 × 10 ^7 M _☉ . The derived total dynamical mass of the group is M _dyn = 6.02 × 10 ^10 M _☉ , whereas its total baryonic mass (stellar + H i ) is 2.6 × 10 ^9 M _☉ , which gives us the dynamical to baryonic mass ratio of 23. Interestingly, all galaxies found in the group are aligned along a straight line in the plane of the sky. The observed spatial extent of the member galaxies is 154 kpc, and their relative line-of-sight velocity span is within 75 km s ^−1 . Using the spatially resolved optical spectra provided by the Dark Energy Spectroscopic Instrument early data release, we find that three group members share a common rotational direction. With these unique properties of the group and its member galaxies, we discuss the possible importance of such a system in the formation and evolution of dwarf galaxy groups and in testing the theory of large-scale structure formation.

Published

2024

6. A Fast Radio Burst in a Compact Galaxy Group at z ∼ 1

Author

Alexa C. Gordon, Wen-fai Fong, Sunil Simha, Yuxin Dong, Charles D. Kilpatrick, Adam T. Deller, Stuart D. Ryder, Tarraneh Eftekhari, Marcin Glowacki, Lachlan Marnoch, August R. Muller, Anya E. Nugent, Antonella Palmese, J. Xavier Prochaska, Marc Rafelski, Ryan M. Shannon, and Nicolas Tejos

Subjects

Radio transient sources, Galaxies, Interacting galaxies, Galaxy groups, Astrophysics, QB460-466

Abstract

FRB 20220610A is a high-redshift fast radio burst (FRB) that has not been observed to repeat. Here, we present rest-frame UV and optical Hubble Space Telescope observations of the field of FRB 20220610A. The imaging reveals seven extended sources, one of which we identify as the most likely host galaxy with a spectroscopic redshift of z = 1.017. We spectroscopically confirm three additional sources to be at the same redshift and identify the system as a compact galaxy group with possible signs of interaction among group members. We determine the host of FRB 20220610A to be a star-forming galaxy with a stellar mass of ≈10 ^9.7 M _⊙ , mass-weighted age of ≈2.6 Gyr, and star formation rate (integrated over the last 100 Myr) of ≈1.7 M _⊙ yr ^−1 . These host properties are commensurate with the star-forming field galaxy population at z ∼ 1 and trace their properties analogously to the population of low- z FRB hosts. Based on estimates of the total stellar mass of the galaxy group, we calculate a fiducial contribution to the observed dispersion measure from the intragroup medium of ≈90–182 pc cm ^−3 (rest frame). This leaves a significant excess of ${515}_{-272}^{+122}$ pc cm ^−3 (in the observer frame); further observation will be required to determine the origin of this excess. Given the low occurrence rates of galaxies in compact groups, the discovery of an FRB in one demonstrates a rare, novel environment in which FRBs can occur. As such groups may represent ongoing or future mergers that can trigger star formation, this supports a young stellar progenitor relative to star formation.

Published

2024

7. A γ-Ray-emitting Collisional Ring Galaxy System in Our Galactic Neighborhood

Author

Vaidehi S. Paliya and D. J. Saikia

Subjects

Gamma-rays, Star forming regions, Dwarf irregular galaxies, Interacting galaxies, Galaxy collisions, Astrophysics, QB460-466

Abstract

The astrophysical γ -ray photons carry the signatures of the violent phenomena happening on various astronomical scales in our Universe. This includes supernova remnants, pulsars, and pulsar wind nebulae in the Galactic environment and extragalactic relativistic jets associated with active galactic nuclei (AGN). However, ∼30% of the γ -ray sources detected with the Fermi Large Area Telescope lack multiwavelength counterpart association, precluding us from characterizing their origin. Here we report, for the first time, the association of a collisional ring galaxy system in our Galactic neighborhood (distance ∼10 Mpc), formed as a consequence of a smaller “bullet” galaxy piercing through a larger galaxy, as the multifrequency counterpart of an unassociated γ -ray source 4FGL J1647.5−5724. The system, also known as “ Kathryn ’ s Wheel ,” contains two dwarf irregular galaxies and an edge-on, late-type, spiral galaxy surrounded by a ring of star-forming knots. We utilized observations taken from the Neil Gehrels Swift observatory, Rapid ASKAP Continuum Survey, SuperCOSMOS H α Survey, Dark Energy Survey, and VIsible MultiObject Spectrograph at Very Large Telescope to ascertain the association with 4FGL J1647.5−5724 and to explore the connection between the star-forming activities and the observed γ -ray emission. We found that star formation alone cannot explain the observed γ -ray emission, and additional contribution likely from the pulsars/supernova remnants or buried AGN is required. We conclude that arcsecond/subarcsecond-scale observations of this extraordinary γ -ray-emitting galaxy collision will be needed to resolve the environment and explore the origin of cosmic rays.

Published

2024

8. Bird's-eye View of Molecular Gas across Stephan's Quintet Galaxy Group and Intragroup Medium

Author

B. H. C. Emonts, P. N. Appleton, U. Lisenfeld, P. Guillard, C. K. Xu, W. T. Reach, L. Barcos-Muñoz, A. Labiano, P. M. Ogle, E. O’Sullivan, A. Togi, S. C. Gallagher, P. Aromal, P.-A. Duc, K. Alatalo, F. Boulanger, T. Díaz-Santos, and G. Helou

Subjects

Hickson compact group, Circumgalactic medium, Intergalactic medium, Intergalactic filaments, Radio galaxies, Interacting galaxies, Astrophysics, QB460-466

Abstract

We present the large-scale distribution and kinematics of cold molecular gas across the compact galaxy group Stephan’s Quintet, based on CO(2–1) observations performed with the Atacama Compact Array (ACA) and CO(1–0) data from the Combined Array for Research in Millimeter-wave Astronomy (CARMA). We find coherent structures of molecular gas associated with the galaxies and intragroup medium, which follow the distribution of warm H _2 previously seen with the James Webb Space Telescope (JWST). CO is associated with a ridge of shocked gas that crosses the galaxy group, and with a spiral arm of the intruding galaxy NGC 7318b, which interacts with the intragroup medium along the ridge. Although the ridge contains widespread shocks, turbulent gas, and warm H _2 , the CO lines are narrower than elsewhere in Stephan’s Quintet (FWHM ∼ 25–65 km s ^−1 ), indicative of settled cold gas. At a distinctly different velocity, CO is found in the active galaxy NGC 7319 and northern star-forming region SQ-A. A bridge of turbulent molecular gas connects NGC 7319 with the ridge, covering a gap of ∼700 km s ^−1 between these structures. The gas excitation ranges from ${L}_{\left.{\rm{CO}}(2-1\right)}^{{\prime} }$ / ${L}_{\left.{\rm{CO}}(1-0\right)}^{{\prime} }$ ∼ 0.3 in the bridge and SQ-A, to ∼0.5 along the ridge, to near unity in the center of NGC 7319. We also detect either a molecular outflow or turbulent molecular gas associated with the radio source in NGC 7319. These ACA data are part of a program with the Atacama Large Millimeter/submillimeter Array and JWST to study the physics of molecular gas from the largest to the smallest scales across the intragroup medium of Stephan’s Quintet.

Published

2024

9. A Physically Motivated Framework to Compare Pair Fractions of Isolated Low- and High-mass Galaxies across Cosmic Time

Author

Katie Chamberlain, Gurtina Besla, Ekta Patel, Vicente Rodriguez-Gomez, Paul Torrey, Garreth Martin, Kelsey Johnson, Nitya Kallivayalil, David Patton, Sarah Pearson, George Privon, and Sabrina Stierwalt

Subjects

Galaxy pairs, Interacting galaxies, Galaxy evolution, Local Group, Astrophysics, QB460-466

Abstract

Low-mass galaxy pair fractions are understudied, and it is unclear whether low-mass pair fractions evolve in the same way as more massive systems over cosmic time. In the era of JWST, Roman, and Rubin, selecting galaxy pairs in a self-consistent way will be critical to connect observed pair fractions to cosmological merger rates across all mass scales and redshifts. Utilizing the Illustris TNG100 simulation, we create a sample of physically associated low-mass (10 ^8 < M _* < 5 × 10 ^9 M _⊙ ) and high-mass (5 × 10 ^9 < M _* < 10 ^11 M _⊙ ) pairs between z = 0 and 4.2. The low-mass pair fraction increases from z = 0 to 2.5, while the high-mass pair fraction peaks at z = 0 and is constant or slightly decreasing at z > 1. At z = 0 the low-mass major (1:4 mass ratio) pair fraction is 4× lower than high-mass pairs, consistent with findings for cosmological merger rates. We show that separation limits that vary with the mass and redshift of the system, such as scaling by the virial radius of the host halo ( r _sep < 1 R _vir ), are critical for recovering pair fraction differences between low-mass and high-mass systems. Alternatively, static physical separation limits applied equivalently to all galaxy pairs do not recover the differences between low- and high-mass pair fractions, even up to separations of 300 kpc. Finally, we place isolated mass analogs of Local Group galaxy pairs, i.e., Milky Way (MW)–M31, MW–LMC, LMC–SMC, in a cosmological context, showing that isolated analogs of LMC–SMC-mass pairs and low-separation (

Published

2024

10. Distribution of Merging and Post-merger Galaxies in Nearby Galaxy Clusters

Author

Duho Kim, Yun-Kyeong Sheen, Yara L. Jaffé, Kshitija Kelkar, Adarsh Ranjan, Franco Piraino-Cerda, Jacob P. Crossett, Ana Carolina Costa Lourenço, Garreth Martin, Julie B. Nantais, Ricardo Demarco, Ezequiel Treister, and Sukyoung K. Yi

Subjects

Abell clusters, Galaxy clusters, Galaxy mergers, Interacting galaxies, Galaxy evolution, Astrophysics, QB460-466

Abstract

We study the incidence and spatial distribution of galaxies that are currently undergoing gravitational merging (M) or that have signs of being post-merger (PM) in six galaxy clusters (A754, A2399, A2670, A3558, A3562, and A3716) within the redshift range of 0.05 ≲ z ≲0.08. To this aim, we obtained Dark Energy Camera mosaics in the ${u}^{{\prime} }$ , ${g}^{{\prime} }$ , and ${r}^{{\prime} }$ bands covering up to 3 × R _200 of the clusters, reaching 28 mag arcsec ^−2 surface brightness limits. We visually inspect ${u}^{{\prime} }$ ${g}^{{\prime} }$ ${r}^{{\prime} }$ color-composite images of volume-limited ( M _r < −20) cluster member galaxies to identify whether galaxies are of M or PM type. We find 4% M-type and 7% PM-type galaxies in the galaxy clusters studied. By adding spectroscopic data and studying the projected phase-space diagram (PPSD) of the projected clustocentric radius and the line-of-sight velocity, we find that PM-type galaxies are more virialized than M-type galaxies, having a 1%–5% higher fraction within the escape-velocity region, while the fraction of M-type was ∼10% higher than the PM type in the intermediate environment. Similarly, on a substructure analysis, M types were found in groups in the outskirts, while PM-type populated groups were found in ubiquitous regions of the PPSD. Adopting literature-derived dynamical state indicator values, we observed a higher abundance of M types in dynamically relaxed clusters. This finding suggests that galaxies displaying post-merger features within clusters likely merged in low-velocity environments, including clusters outskirts and dynamically relaxed clusters.

Published

2024

11. A Multiwavelength Approach to Constraining the Merger Properties of ACT-CL J0034.4+0225

Author

Peter Doze, Matt Hilton, John P. Hughes, Charles R. Keeton, Kenda Knowles, Kavilan Moodley, Tony Mroczkowski, Bruce Partridge, Catie A. Raney, Cristóbal Sifón, Sinenhlanhla Sikhosana, Cristian Vargas, and Edward J. Wollack

Subjects

Galaxy clusters, X-ray sources, Interacting galaxies, Astrophysics, QB460-466

Abstract

ACT-CL J0034.4+0225 is a previously unrecognized merging galaxy cluster at z = 0.38588 ± 0.00068. Our primary evidence is provided by a 21 ks Chandra image that shows two surface brightness peaks separated by ∼49″ (259 kpc) surrounded by an extended cluster gas distribution. Each gas peak contains a brightest cluster galaxy, offset from the gas peak. We collect new South African Large Telescope optical spectra that, when augmented by archival data, yield redshifts for the two BGCs and 58 other cluster members. Archival Giant Metrewave Radio Telescope and MeerKAT data reveal a radio halo that encompasses the X-ray peaks. We provide and compare three X-ray-based mass estimates (5.0 × 10 ^14 M _⊙ , 6.4 × 10 ^14 M _⊙ , and 8.6 × 10 ^14 M _⊙ ). The Planck and ACT Sunyaev–Zel’dovich masses are ≈5.8 × 10 ^14 M _⊙ . We constrain the merger state and properties by comparing them to an existing suite of N-body/hydrodynamical models using the measured gas peak separation (259 kpc, projected) and radial velocity difference (0–1000 km s ^−1 ). This constrains the epoch of the merger to be within ∼100 Myr of first pericenter passage. A strong lensing analysis constrains the mass ratio to be in the range 1:1–1:20, while the cluster morphology prefers values near the equal-mass range.

Published

2024

12. Characterizing the Molecular Gas in Infrared Bright Galaxies with CARMA

Author

Katherine Alatalo, Andreea O. Petric, Lauranne Lanz, Kate Rowlands, Vivian U, Kirsten L. Larson, Lee Armus, Loreto Barcos-Muñoz, Aaron S. Evans, Jin Koda, Yuanze Luo, Anne M. Medling, Kristina E. Nyland, Justin A. Otter, Pallavi Patil, Fernando Peñaloza, Diane Salim, David B. Sanders, Elizaveta Sazonova, Maya Skarbinski, Yiqing Song, Ezequiel Treister, and C. Meg Urry

Subjects

Galaxy interactions, Galaxy mergers, Interacting galaxies, Molecular gas, Star formation, Astrophysics, QB460-466

Abstract

We present the CO(1–0) maps of 28 infrared-bright galaxies from the Great Observatories All-Sky Luminous Infrared Galaxy Survey (GOALS) taken with the Combined Array for Research in Millimeter Astronomy (CARMA). We detect 100 GHz continuum in 16 of the 28 CARMA GOALS galaxies, which trace both active galactic nuclei (AGNs) and compact star-forming cores. The GOALS galaxies show a variety of molecular gas morphologies, though in the majority of cases the average velocity fields show a gradient consistent with rotation. We fit the full continuum spectral energy distributions (SEDs) of each of the sources using either magphys or SED3FIT (if there are signs of an AGN) to derive the total stellar mass, dust mass, and SFRs of each object. We adopt a value determined from luminous and ultraluminous infrared galaxies (LIRGs and ULIRGs) of α _CO = ${1.5}_{-0.8}^{+1.3}$ M _⊙ (K km s ^−1 pc ^2 ) ^−1 , which leads to more physical values for f _mol and the gas-to-dust ratio. Mergers tend to have the highest gas-to-dust ratios. We assume the cospatiality of the molecular gas and star formation and plot the CARMA GOALS sample on the Schmidt–Kennicutt relation, where we find that they preferentially lie above the line set by normal star-forming galaxies. This hyper-efficiency is likely due to the increased turbulence in these systems, which decreases the freefall time compared to star-forming galaxies, leading to “enhanced” star formation efficiency. Line wings are present in a non-negligible subsample (11/28) of the CARMA GOALS sources and are likely due to outflows driven by AGNs or star formation, gas inflows, or additional decoupled gas components.

Published

2024

13. DDO68 C: The Actual Appearance of a Ghost Satellite Dwarf through Adaptive Optics at the Large Binocular Telescope

Author

Francesca Annibali, Enrico Pinna, Leslie K. Hunt, Diego Paris, Felice Cusano, Michele Bellazzini, John M. Cannon, Raffaele Pascale, Monica Tosi, and Fabio Rossi

Subjects

Dwarf galaxies, Dwarf irregular galaxies, Interacting galaxies, Galaxy stellar content, Adaptive optics, Astrophysics, QB460-466

Abstract

Through adaptive optics (AO) imaging with the SOUL+LUCI instrument at the Large Binocular Telescope we were able to resolve, for the first time, individual stars in the gas-rich galaxy DDO68 C. This system was already suggested to be interacting with the extremely metal-poor dwarf DDO68, but its nature has remained elusive so far because of the presence of a bright foreground star close to its line of sight that hampers a detailed study of its stellar population and distance. In our study, we turned this interloper star into an opportunity to have a deeper insight on DDO68 C, using it as a guide star for the AO correction. Although the new data do not allow for a direct distance measurement through the red giant branch tip method, the combined analysis of the resolved-star color–magnitude diagram, of archival GALEX far-UV and near-UV photometry, and of H α data provides a self-consistent picture in which DDO68 C is at the same ∼13 Mpc distance as its candidate companion DDO68. These results indicate that DDO68 is a unique case of a low-mass dwarf, less massive than the Magellanic Clouds, interacting with three satellites (DDO68 C and two previously confirmed accreting systems), providing useful constraints on cosmological models and a potential explanation for its anomalous extremely low metallicity.

Published

2023

14. GOALS-JWST: Revealing the Buried Star Clusters in the Luminous Infrared Galaxy VV 114

Author

Sean T. Linden, Aaron S. Evans, Lee Armus, Jeffrey A. Rich, Kirsten L. Larson, Thomas Lai, George C. Privon, Vivian U, Hanae Inami, Thomas Bohn, Yiqing Song, Loreto Barcos-Muñoz, Vassilis Charmandaris, Anne M. Medling, Sabrina Stierwalt, Tanio Diaz-Santos, Torsten Böker, Paul van der Werf, Susanne Aalto, Philip Appleton, Michael J. I. Brown, Christopher C. Hayward, Justin H. Howell, Kazushi Iwasawa, Francisca Kemper, David T. Frayer, David Law, Matthew A. Malkan, Jason Marshall, Joseph M. Mazzarella, Eric J. Murphy, David Sanders, and Jason Surace

Subjects

Young star clusters, Luminous infrared galaxies, Star forming regions, Interacting galaxies, Astrophysics, QB460-466

Abstract

We present the results of a James Webb Space Telescope NIRCam investigation into the young massive star cluster (YMC) population in the luminous infrared galaxy VV 114. We identify 374 compact YMC candidates with signal-to-noise ratios ≥ 3, 5, and 5 at F150W, F200W, and F356W, respectively. A direct comparison with our HST cluster catalog reveals that ∼20% of these sources are undetected at optical wavelengths. Based on yggdrasil stellar population models, we identify 17 YMC candidates in our JWST imaging alone with F150W – F200W and F200W – F356W colors suggesting they are all very young, dusty ( A _V = 5–15), and massive (10 ^5.8 < M _⊙ < 10 ^6.1 ). The discovery of these “hidden” sources, many of which are found in the “overlap” region between the two nuclei, quadruples the number of t < 3 Myr clusters and nearly doubles the number of t < 6 Myr clusters detected in VV 114. Now extending the cluster age distribution ( ${dN}/d\tau \propto {\tau }^{\gamma }$ ) to the youngest ages, we find a slope of γ = −1.30 ± 0.39 for 10 ^6 < τ (yr) < 10 ^7 , which is consistent with the previously determined value from 10 ^7 < τ (yr) < 10 ^8.5 , and confirms that VV 114 has a steep age distribution slope for all massive star clusters across the entire range of cluster ages observed. Finally, the consistency between our JWST- and HST-derived age distribution slopes indicates that the balance between cluster formation and destruction has not been significantly altered in VV 114 over the last 0.5 Gyr.

Published

2023

15. UGC 4211: A Confirmed Dual Active Galactic Nucleus in the Local Universe at 230 pc Nuclear Separation

Author

Michael J. Koss, Ezequiel Treister, Darshan Kakkad, J. Andrew Casey-Clyde, Taiki Kawamuro, Jonathan Williams, Adi Foord, Benny Trakhtenbrot, Franz E. Bauer, George C. Privon, Claudio Ricci, Richard Mushotzky, Loreto Barcos-Munoz, Laura Blecha, Thomas Connor, Fiona Harrison, Tingting Liu, Macon Magno, Chiara M. F. Mingarelli, Francisco Muller-Sanchez, Kyuseok Oh, T. Taro Shimizu, Krista Lynne Smith, Daniel Stern, Miguel Parra Tello, and C. Megan Urry

Subjects

AGN host galaxies, X-ray active galactic nuclei, Galaxy mergers, Interacting galaxies, Galaxy collisions, AB photometry, Astrophysics, QB460-466

Abstract

We present multiwavelength high-spatial resolution (∼0.″1, 70 pc) observations of UGC 4211 at z = 0.03474, a late-stage major galaxy merger at the closest nuclear separation yet found in near-IR imaging (0.″32, ∼230 pc projected separation). Using Hubble Space Telescope/Space Telescope Imaging Spectrograph, Very Large Telescope/MUSE+AO, Keck/OSIRIS+AO spectroscopy, and the Atacama Large Millimeter/submillimeter Array (ALMA) observations, we show that the spatial distribution, optical and near-infrared emission lines, and millimeter continuum emission are all consistent with both nuclei being powered by accreting supermassive black holes (SMBHs). Our data, combined with common black hole mass prescriptions, suggest that both SMBHs have similar masses, $\mathrm{log}\left({M}_{\mathrm{BH}}/{M}_{\odot }\right)$ ∼ 8.1 (south) and $\mathrm{log}\left({M}_{\mathrm{BH}}/{M}_{\odot }\right)$ ∼ 8.3 (north), respectively. The projected separation of 230 pc (∼6× the black hole sphere of influence) represents the closest-separation dual active galactic nuclei (AGN) studied to date with multiwavelength resolved spectroscopy and shows the potential of nuclear (

Published

2023

16. GOALS-JWST: Pulling Back the Curtain on the AGN and Star Formation in VV 114

Author

J. Rich, S. Aalto, A. S. Evans, V. Charmandaris, G. C. Privon, T. Lai, H. Inami, S. Linden, L. Armus, T. Diaz-Santos, P. Appleton, L. Barcos-Muñoz, T. Böker, K. L. Larson, D. R. Law, M. A. Malkan, A. M. Medling, Y. Song, V. U, P. van der Werf, T. Bohn, M. J. I. Brown, L. Finnerty, C. Hayward, J. Howell, K. Iwasawa, F. Kemper, J. Marshall, J. M. Mazzarella, J. McKinney, F. Muller-Sanchez, E. J. Murphy, D. Sanders, B. T. Soifer, S. Stierwalt, and J. Surace

Subjects

Interacting galaxies, Galaxy nuclei, Luminous IR galaxies, Active galactic nuclei, Astrophysics, QB460-466

Abstract

We present results from the James Webb Space Telescope Director’s Discretionary Time Early Release Science program 1328 targeting the nearby, luminous infrared galaxy, VV 114. We use the MIRI and NIRSpec instruments to obtain integral-field spectroscopy of the heavily obscured eastern nucleus (V114E) and surrounding regions. The spatially resolved, high-resolution spectra reveal the physical conditions in the gas and dust over a projected area of 2–3 kpc that includes the two brightest IR sources, the NE and SW cores. Our observations show for the first time spectroscopic evidence that the SW core hosts an active galactic nucleus as evidenced by its very low 6.2 μ m and 3.3 μ m polycyclic aromatic hydrocarbon equivalent widths (0.12 and 0.017 μ m, respectively) and mid- and near-IR colors. Our observations of the NE core show signs of deeply embedded star formation including absorption features due to aliphatic hydrocarbons, large quantities of amorphous silicates, as well as HCN due to cool gas along the line of sight. We detect elevated [Fe ii ]/Pf α consistent with extended shocks coincident with enhanced emission from warm H _2 , far from the IR-bright cores and clumps. We also identify broadening and multiple kinematic components in both H _2 and fine structure lines caused by outflows and previously identified tidal features.

Published

2023

17. MOSEL Survey: JWST Reveals Major Mergers/strong Interactions Drive the Extreme Emission Lines in the Early Universe

Author

Anshu Gupta, Ravi Jaiswar, Vicente Rodriguez-Gomez, Ben Forrest, Kim-Vy Tran, Themiya Nanayakkara, Anishya Harshan, Elisabete da Cunha, Glenn G. Kacprzak, and Michaela Hirschmann

Subjects

Emission line galaxies, Galaxy evolution, Interacting galaxies, Galaxy mergers, High-redshift galaxies, Astrophysics, QB460-466

Abstract

Extreme emission line galaxies (EELGs), where nebular emissions contribute 30%–40% of the flux in certain photometric bands, are ubiquitous in the early Universe ( z > 6). We utilize deep NIRCam imaging from the JWST Advanced Deep Extragalactic Survey ( JADES ) to investigate the properties of companion galaxies (projected distance 6.

Published

2023

18. Ghost in the Shell: Evidence for Past Active Galactic Nucleus Activities in NGC 5195 from a Newly Discovered Large-scale Ionized Structure

Author

Xiaoyu Xu and Junfeng Wang

Subjects

Interstellar medium, LINER galaxies, Interacting galaxies, Low-luminosity active galactic nuclei, Astrophysics, QB460-466

Abstract

The early-type galaxy NGC 5195 (alternatively known as M51b) possesses extended gas features detected in the multiwavelength, postulated to be associated with previous activities of the central supermassive black hole. Using integral field spectroscopic observations from the Canada–France–Hawaii Telescope/SITELLE, we report on the discovery of a new large-scale ionized gas structure traced by [O iii ], [N ii ], and H α line emission, extending to ∼10 kpc from the nucleus of NGC 5195. Its bipolar morphology, emission-line ratio diagnostics, and comparison with the X-ray image from Chandra and low-frequency radio data from LOFAR all indicate that it is likely an outflow inflated by a past episode of elevated active galactic nucleus (AGN) activity. Assuming the ionized gas is outflowing from the central region of NGC 5195, the estimated mass and energy outflow rates are ${\dot{M}}_{\mathrm{out}}=3.5$ –27.9 M _☉ yr ^−1 and ${\dot{E}}_{\mathrm{out}}=0.98$ –7.9 × 10 ^40 erg s ^−1 , respectively, which cannot be provided by current star formation and the low-luminosity nucleus. Alternatively, considering the history of gravitational interaction between the M51 pair and the presence of the H i tidal tail, the northern large-scale ionized gas could very likely be associated with tidally stripped material illuminated by a luminous AGN in the past.

Published

2023

19. A Chandra X-Ray Survey of Optically Selected Close Galaxy Pairs: Unexpectedly Low Occupation of Active Galactic Nuclei

Author

Lin He, Meicun Hou, Zhiyuan Li, Shuai Feng, and Xin Liu

Subjects

Galaxy nuclei, Interacting galaxies, Galaxy mergers, X-ray active galactic nuclei, Astrophysics, QB460-466

Abstract

High-resolution X-ray observations offer a unique tool for probing the still-elusive connection between galaxy mergers and active galactic nuclei (AGNs). We present an analysis of nuclear X-ray emission in an optically selected sample of 92 close galaxy pairs (with projected separations ≲20 kpc and line-of-sight velocity offsets 10 ^41 erg s ^−1 ), the detection rate becomes $18{ \% }_{-3 \% }^{+3 \% }$ (32/184), which shows no excess compared to the X-ray detection rate of a comparison sample of optically classified single AGNs. The fraction of pairs containing dual AGN is only $2{ \% }_{-2 \% }^{+2 \% }$ . Moreover, most nuclei at the smallest projected separations probed by our sample (a few kiloparsecs) have an unexpectedly low apparent X-ray luminosity and Eddington ratio, which cannot be solely explained by circumnuclear obscuration. These findings suggest that close galaxy interaction is not a sufficient condition for triggering a high level of AGN activity.

Published

2023

20. The Nature of LoBAL QSOs. II. HST/WFC3 Observations Reveal Host Galaxies Dominated by Mergers

Author

Mariana S. Lazarova, Gabriela Canalizo, Mark Lacy, Wyatt Behn, Kaitlyn Raub, Vardha N. Bennert, and Duncan Farrah

Subjects

Active galaxies, Interacting galaxies, Galaxy evolution, Quasars, Broad-absorption line quasar, Astrophysics, QB460-466

Abstract

Low-ionization broad absorption line QSOs (LoBALs) are suspected to be merging systems in which extreme, active galactic nucleus-driven outflows have been triggered. Whether or not LoBALs are uniquely associated with mergers, however, has yet to be established. To characterize the morphologies of LoBALs, we present the first high-resolution morphological analysis of a volume-limited sample of 22 Sloan Digital Sky Survey (SDSS)-selected LoBALs at 0.5 < z < 0.6 from Hubble Space Telescope Wide Field Camera 3 observations. Host galaxies are resolved in 86% of the systems in F125W, which is sensitive to old stellar populations, while only 18% are detected in F475W, which traces young, unobscured stellar populations. Signs of recent or ongoing tidal interaction are present in 45%–64% of the hosts, including double nuclei, tidal tails, bridges, plumes, shells, and extended debris. Ongoing interaction with a companion is apparent in 27%−41% of the LoBALs, with as much as 1/3 of the sample representing late-stage mergers at projected nuclear separations

Published

2023

21. Testing the Radio-selection Method of Dual Active Galactic Nuclei in the Stripe 82 Field

Author

Arran C. Gross, Hai Fu, A. D. Myers, S. G. Djorgovski, Joshua L. Steffen, and J. M. Wrobel

Subjects

Active galaxies, Interacting galaxies, Active galactic nuclei, Astrophysics, QB460-466

Abstract

We test the merger-induced dual active galactic nuclei (dAGNs) paradigm using a sample of 35 radio galaxy pairs from the Sloan Digital Sky Survey Stripe 82 field. Using Keck optical spectroscopy, we confirm 21 pairs have consistent redshifts, constituting kinematic pairs; the remaining 14 pairs are line-of-sight projections. We classify the optical spectral signatures via emission line ratios, equivalent widths, and excess of radio power above star formation predicted outputs. We find six galaxies are classified as LINERs and seven are AGN/starburst composites. Most of the LINERs are retired galaxies, while the composites likely have AGN contribution. All of the kinematic pairs exhibit radio power more than 10× above the level expected from just star formation, suggestive of a radio AGN contribution. We also analyze high-resolution (0.″3) imaging at 6 GHz from the NSF’s Karl G. Jansky Very Large Array for 17 of the kinematic pairs. We find six pairs (two new, four previously known) host two separate radio cores, confirming their status as dAGNs. The remaining 11 pairs contain single AGNs, with most exhibiting prominent jets/lobes overlapping their companion. Our final census indicates a dAGN duty cycle slightly higher than predictions of purely stochastic fueling, although a larger sample (potentially culled from VLASS) is needed to fully address the dAGN fraction. We conclude that while dAGNs in the Stripe 82 field are rare, the merger process plays some role in their triggering and it facilitates low to moderate levels of accretion.

Published

2023

22. NOEMA Detection of Circumnuclear Molecular Gas in X-Ray Weak Dual Active Galactic Nuclei: No Evidence for Heavy Obscuration

Author

Meicun Hou, Zhiyuan Li, Xin Liu, Zongnan Li, Ruancun Li, Ran Wang, Jing Wang, and Luis C. Ho

Subjects

Active galaxies, Interacting galaxies, Active galactic nuclei, Submillimeter astronomy, Interferometry, CO line emission, Astrophysics, QB460-466

Abstract

Dual active galactic nuclei (AGNs), which are the manifestation of two actively accreting supermassive black holes (SMBHs) hosted by a pair of merging galaxies, are a unique laboratory for studying the physics of SMBH feeding and feedback during an indispensable stage of galaxy evolution. In this work, we present NOEMA CO(2–1) observations of seven kiloparsec-scale dual-AGN candidates drawn from a recent Chandra survey of low redshift, optically classified AGN pairs. These systems are selected because they show unexpectedly low 2–10 keV X-ray luminosities for their small physical separations signifying an intermediate-to-late stage of merger. Circumnuclear molecular gas traced by the CO(2–1) emission is significantly detected in six of the seven pairs and 10 of the 14 nuclei, with an estimated mass ranging between (0.2–21) × 10 ^9 M _⊙ . The primary nuclei, i.e., the ones with the higher stellar velocity dispersion, tend to have a higher molecular gas mass than the secondary. Most CO-detected nuclei show a compact morphology, with a velocity field consistent with a kiloparsec-scale rotating structure. The inferred hydrogen column densities range between 5 × 10 ^21 –2 × 10 ^23 cm ^−2 , but mostly at a few times 10 ^22 cm ^−2 , in broad agreement with those derived from X-ray spectral analysis. Together with the relatively weak mid-infrared emission, the moderate column density argues against the prevalence of heavily obscured, intrinsically luminous AGNs in these seven systems, but favors a feedback scenario in which AGN activity triggered by a recent pericentric passage of the galaxy pair can expel circumnuclear gas and suppress further SMBH accretion.

Published

2023

23. Harnessing the Hubble Space Telescope Archives: A Catalog of 21,926 Interacting Galaxies

Author

David O’Ryan, Bruno Merín, Brooke D. Simmons, Antónia Vojteková, Anna Anku, Mike Walmsley, Izzy L. Garland, Tobias Géron, William Keel, Sandor Kruk, Chris J. Lintott, Kameswara Bharadwaj Mantha, Karen L. Masters, Jan Reerink, Rebecca J. Smethurst, and Matthew R. Thorne

Subjects

Interacting galaxies, Computational methods, Catalogs, Astrophysics, QB460-466

Abstract

Mergers play a complex role in galaxy formation and evolution. Continuing to improve our understanding of these systems requires ever larger samples, which can be difficult (even impossible) to select from individual surveys. We use the new platform ESA Datalabs to assemble a catalog of interacting galaxies from the Hubble Space Telescope science archives; this catalog is larger than previously published catalogs by nearly an order of magnitude. In particular, we apply the Zoobot convolutional neural network directly to the entire public archive of HST F814W images and make probabilistic interaction predictions for 126 million sources from the Hubble Source Catalog. We employ a combination of automated visual representation and visual analysis to identify a clean sample of 21,926 interacting galaxy systems, mostly with z < 1. Sixty-five percent of these systems have no previous references in either the NASA Extragalactic Database or Simbad. In the process of removing contamination, we also discover many other objects of interest, such as gravitational lenses, edge-on protoplanetary disks, and “backlit” overlapping galaxies. We briefly investigate the basic properties of this sample, and we make our catalog publicly available for use by the community. In addition to providing a new catalog of scientifically interesting objects imaged by HST, this work also demonstrates the power of the ESA Datalabs tool to facilitate substantial archival analysis without placing a high computational or storage burden on the end user.

Published

2023

24. Formation of stars and star clusters in colliding galaxies

Author

Belles, Pierre-Emmanuel Aime Marcel

Subjects

523.88, star formation, interacting galaxies, galaxy mergers, starburst galaxies, globular clusters, tidal dwarf galaxies, NGC 7252, inter-stellar medium, dark gas, radio-interferometry techniques, numerical simulations of mergers

Abstract

Mergers are known to be essential in the formation of large scale structures and to have a significant role in the history of galaxy formation and evolution. Besides a morphological transformation, mergers induce important bursts of star formation. These starburst are characterised by high Star Formation Efficiencies (SFEs) and Specific Star Formation Rates, i.e., high Star Formation Rates (SFR) per unit of gas mass and high SFR per unit of stellar mass, respectively, compared to spiral galaxies. At all redshifts, starburst galaxies are outliers of the sequence of star-forming galaxies defined by spiral galaxies. We have investigated the origin of the starburst-mode of star formation, in three local interacting systems: Arp 245, Arp 105 and NGC7252. We combined high-resolution JVLA observations of the 21-cm line, tracing the Hi diffuse gas, with UV GALEX observations, tracing the young star-forming regions. We probe the local physical conditions of the Inter- Stellar Medium (ISM) for independent star-forming regions and explore the atomic-to-dense gas transformation in different environments. The SFR/H i ratio is found to be much higher in central regions, compared to outer regions, showing a higher dense gas fraction (or lower Hi gas fraction) in these regions. In the outer regions of the systems, i.e., the tidal tails, where the gas phase is mostly atomic, we find SFR/H i ratios higher than in standard Hi-dominated environments, i.e., outer discs of spiral galaxies and dwarf galaxies. Thus, our analysis reveals that the outer regions of mergers are characterised by high SFEs, compared to the standard mode of star formation. The observation of high dense gas fractions in interacting systems is consistent with the predictions of numerical simulations; it results from the increase of the gas turbulence during a merger. The merger is likely to affect the star-forming properties of the system at all spatial scales, from large scales, with a globally enhanced turbulence, to small scales, with possible modifications of the initial mass function. From a high-resolution numerical simulation of the major merger of two spiral galaxies, we analyse the effects of the galaxy interaction on the star forming properties of the ISM at the scale of star clusters. The increase of the gas turbulence is likely able to explain the formation of Super Star Clusters in the system. Our investigation of the SFR–H i relation in galaxy mergers will be complemented by highresolution Hi data for additional systems, and pushed to yet smaller spatial scales.

Published

2013

25. Account of a Dark Energy Model in the Roche Potential for Interacting Galaxies.

Author

Zakirov, U. N.

Subjects

*DARK energy, *GALAXIES, *THERMODYNAMICS

Abstract

The influence of a dark energy model – a new nonvacuum field – has been considered here for the first time in the generalized Roche potential with the equivalence principle taken into account for interacting galaxies. An equation of the thermodynamics of the indicated field is derived and its possible evolutions, influencing the accelerated expansion of the Universe, are discussed. [ABSTRACT FROM AUTHOR]

Published

2021

26. Observations of interacting galaxies NGC 2341 and NGC 2342 in X-ray band

Author

A. V. Tugay, S. Yu. Shevchenko, and O. О. Ponomarenko

Subjects

interacting galaxies, X-Ray emission, individual galaxies, Astronomy, QB1-991

Abstract

The study of radiation of the interacting galaxies in different ranges enables to identify various processes occurring in them. The most active processes (such as star birth, material accretion onto the black holes, burster flashes, etc.) cause the appearance of X-rays. In our work, we studied the nature of the interacting pair of galaxies NGC 2341 and NGC 2342 in the classical high-energy band 0.3–10 keV. This is an extremely interesting for astrophysics range which is currently being investigated using orbital X-ray observatories. The source of information for this work is the XMM-Newton X-ray space observatory of ESA. According to this telescope observation results, the light curves and the emission spectrum of the objects of study were built. For the purpose of spectral analysis, we used two component power function model. Obtained results were compared with the results of the Mekal blackbody radiation model from the XMM-Newton, Chandra and ROSAT / ASCA surveys. We were not able to isolate individual structures in the X-ray range according to the available observations. We believe that the main source of X-ray radiation from the pair of interacting galaxies NGC 2341/42 is a tidal interaction, which leads to the intensification of the star birth processes in galaxies and also leads to the formation of the active galactic nucleus. Sloped component of the spectrum (1.2–2.3 keV) in the power function model obviously corresponds to the integral emissions of X-ray binaries. Further study of this galactic pair shall make possible to identify individual structures that are the sources of X-ray radiation and to explain their nature. Comparison with other isolated and interacting galaxies suggests that these objects are amongst the most bright in the X-ray range. X-ray studies of interacting and merging galaxies using the XMM-Newton and Chandra orbital observatories shall assists our general understanding of the galaxies evolution and to establish whether the interaction of the galaxies is only one star-forming consequence.

Published

2018

27. This title is unavailable for guests, please login to see more information.

Author

Le Reste, Alexandra and Le Reste, Alexandra

Published

2023

28. This title is unavailable for guests, please login to see more information.

Author

Le Reste, Alexandra and Le Reste, Alexandra

Published

2023

29. This title is unavailable for guests, please login to see more information.

Author

Le Reste, Alexandra and Le Reste, Alexandra

Published

2023

30. The Mice at play in the CALIFA survey. A case study of a gas-rich major merger between first passage and coalescence

Author

Catalán Torrecilla, Cristina, Marino, Raffaella Anna, otros, ..., Catalán Torrecilla, Cristina, Marino, Raffaella Anna, and otros, ...

Abstract

© ESO, 2014. Artículo firmado por 46 autores. This study makes use of the data provided by the Calar Alto Legacy Integral Field Area (CALIFA) survey (http://www.califa.caha.es). Based on Observations collected at the Centro Astronómico Hispano Alemán (CAHA) at Calar Alto, operated jointly by the Max-Planck-Institut fur Astronomie and the Instituto de Astrofísica de Andalucía (CSIC). CALIFA is the first legacy survey being performed at Calar Alto. The CALIFA collaboration would like to thank the IAA-CSIC and MPIA-MPG as major partners of the observatory, and CAHA itself, for the unique access to telescope time and support in manpower and infrastructures. The CALIFA collaboration thanks also the CAR staff for the dedication to this project, The authors would like to thank the anonymous referee for comments that significantly improved the paper, Dimitri Gadotti for providing extersive help and advice with the image decomposition; Mike Dopita and Tim Heckman for their patience explaining the effects of shocks in superwinds; Daria Dubinoyska for creating undistorted ACS PSF images from the Tiny Tim images and Carotin Villforth for further help with the ACS PSF; Lia Athanassoula for help interpeting the kinematic maps: Daniel Pomarede for help getting SDvision running; Jeremy Sanders and Roderik Johnstone for help interpreting( the X-ray observations: Eva Schinnerer for pointing out the effect of beam smearing; all other interested researchers who have contributed with questions and comments following discussions and presentations of this work over the last 2 years. The numerical simulations were performed on facilities hosted by the CSC-IT Center for Science in Espoo. Finland, which are financed by the Finnish ministry of education. Funding and financial support acknowledgements.: V. W. from the European Research Council Starting Grant (RI, Wild SEDmorph), European Research Council Advanced Grant (RI. J. Dunlop) and Marie Curie Career Reintegration Grant (RI. Wild Phiz-e, We present optical integral field spectroscopy (IFS) observations of the Mice, a major merger between two massive (≳10^11 M_⊙) gas-rich spirals NGC 4676A and B, observed between first passage and final coalescence. The spectra provide stellar and gas kinematics, ionised gas properties, and stellar population diagnostics, over the full optical extent of both galaxies with ~1.6 kpc spatial resolution. The Mice galaxies provide a perfect case study that highlights the importance of IFS data for improving our understanding of local galaxies. The impact of first passage on the kinematics of the stars and gas has been significant, with strong bars most likely induced in both galaxies. The barred spiral NGC 4676B exhibits a strong twist in both its stellar and ionised gas disk. The edge-on disk galaxy NGC 4676A appears to be bulge free, with a strong bar causing its “boxy” light profile. On the other hand, the impact of the merger on the stellar populations has been minimal thus far. By combining the IFS data with archival multiwavelength observations we show that star formation induced by the recent close passage has not contributed significantly to the total star formation rate or stellar mass of the galaxies. Both galaxies show bicones of high ionisation gas extending along their minor axes. In NGC 4676A the high gas velocity dispersion and Seyfert-like line ratios at large scaleheight indicate a powerful outflow. Fast shocks (vs ~ 350 km s^-1) extend to ~6.6 kpc above the disk plane. The measured ram pressure (P/k = 4.8 × 10^6 K cm^-3) and mass outflow rate (~8−20 M_⊙ yr^-1) are similar to superwinds from local ultra-luminous infrared galaxies, although NGC 4676A only has a moderate infrared luminosity of 3 × 10^10 L_⊙. Energy beyond what is provided by the mechanical energy of the starburst appears to be required to drive the outflow. Finally, we compare the observations to mock kinematic and stellar population maps extracted from a hydrodynamical merger simulation. T, Unión Europea. FP7, Ministerio de Economía y Competitividad (MINECO), European Research Council, Marie Curie Career Reintegration, Consejo Nacional de Ciencia y Tecnología (CONACYT), México, Danish National Research Foundation, University of Helsinki, Programa Ramón y Cajal, Agence Nationale de la Recherche (ANR), Francia, Ministerio de Educación e Investigación = Bundesministeriums für Bildung und Forschung (BMBF), Alemania, Campus de Excelencia Internacional (CEI) Moncloa, España, Emmy Noether-Programme (GSF), Fundacao para a Ciencia e a Tecnologia (FCT), Portugal, FCT-MEC, Junta de Andalucía, Marie Curie Career Integration, Junta de Andalucia, National Science Foundation (NSF), Aspen Center for Physics, German Science Foundation (GSF), Alemania, Depto. de Física de la Tierra y Astrofísica, Fac. de Ciencias Físicas, TRUE, pub

Published

2023

31. Ultraviolet emission from stellar populations within tidal tails: Catching the youngest galaxies in formation?

Author

Gil de Paz, Armando, otros, ..., Gil de Paz, Armando, and otros, ...

Abstract

© 2005. The American Astronomical Society. All rights reserved. Artículo firmado por 25 autores. GALEX is a NASA small explorer launched in 2003 April. We gratefully acknowledge NASA’s support for construction, operation, and science analysis for the GALEX mission, developed in cooperation with the Centre National d’Etudes Spatiales of France and the Korean Ministry of Science and Technology., New Galaxy Evolution Explorer (GALEX) observations have detected significant far-UV (FUV; 1530 Å) and near-UV (NUV; 2310 Å) emission from stellar substructures within the tidal tails of four ongoing galaxy mergers. The UV-bright regions are optically faint and are coincident with H I density enhancements. FUV emission is detected at any location where the H I surface density exceeds ~2 M_☉ pc^-2, and it is often detected in the absence of visible wavelength emission. UV luminosities of the brighter regions of the tidal tails imply masses of 10^6 to ~10^9 M_☉ in young stars in the tails, and H I luminosities imply similar H I masses. UV-optical colors of the tidal tails indicate stellar populations as young as a few megayears, and in all cases ages under 400 Myr. Most of the young stars in the tails formed in single bursts, rather than resulting from continuous star formation, and they formed in situ as the tails evolved. Star formation appears to be older near the parent galaxies and younger at increasing distances from the parent galaxy. This could be because the star formation occurs progressively along the tails, or because the star formation has been inhibited near the galaxy/tail interface. The youngest stellar concentrations, usually near the ends of long tidal tails, have masses comparable to confirmed tidal dwarf galaxies and may be newly forming galaxies undergoing their first burst of star formation., Depto. de Física de la Tierra y Astrofísica, Fac. de Ciencias Físicas, TRUE, pub

Published

2023

32. Neutral gas properties of high-redshift analog galaxies : 21cm observations of Lyα and LyC-emitting galaxies

Author

Le Reste, Alexandra

Subjects

Lyman Continuum, Astronomi, astrofysik och kosmologi, Interacting galaxies, Astronomy, Astrophysics and Cosmology, Epoch of Reionization, Lyman alpha, 21cm line, Galaxies

Abstract

Neutral hydrogen (HI) is the most abundant baryonic element and a crucial component of galaxies. In the early universe, the interaction between neutral gas and the light produced by galaxies is thought to have given rise to cosmological reionization. During this last major phase transition of the Universe, the bulk of HI within the intergalactic medium (IGM) was ionized. However, observational constraints limit our understanding of the interplay between the radiation produced by galaxies and their neutral gas, and that of the physical processes that caused this important cosmological period. Another poorly understood mechanism is the one that drives the escape of Lyman-α (Lyα) emission from star-forming galaxies and shapes the line profile of this well-used tracer of galaxies at high redshift. To fully answer these questions, direct observations of the neutral gas content and distribution of Lyα emitters are needed. This thesis presents 21cm observations of the neutral gas reservoirs of rare local galaxies that are analogous to objects in the early universe. We have observed the neutral gas of Haro 11, the closest known ionizing radiation (Lyman Continuum, LyC) leaking galaxy. This 21cm observation was the first to successfully map the neutral gas distribution of a confirmed LyC emitter. We observed a strongly asymmetric neutral gas distribution resulting from a merger event, with the bulk of the HI mass offset from the regions producing LyC radiation in the galaxy. By decreasing the column density of gas on large scales, this HI distribution has facilitated the escape of ionizing radiation from the center of the galaxy to the IGM. We have also observed the neutral gas content and distribution of local Lyα-emitting galaxies on a variety of angular scales. We mapped the neutral gas at scales that can be compared to those characterizing Lyα emission in two galaxies, and supplemented the data with integral field spectroscopic observations tracing ionized gas and dust. Additionally, we reduced low angular resolution 21cm observations of 37 galaxies in the Lyman Alpha Reference Samples. We found clear evidence of interaction in most of the galaxies in the samples (~60%), indicating that mergers play an important role in the Lyα escape from galaxies. We found that global HI properties did not correlate well with any metric quantifying Lyα emission, although different classes of Lyα-emitters were distributed differently around HI scaling relations. This indicates that star-forming galaxies with low neutral gas content have a higher chance of emitting strongly in Lyα, but ultimately, neutral gas regulates the escape of Lyα emission on small scales. 21cm studies of both Lyα and LyC emitters conducted in this thesis have demonstrated that galaxy interactions play an important role in the escape of ultraviolet (UV) radiation from local galaxies. By perturbing the neutral gas content of galaxies and enhancing their star formation rate, these interactions are interesting mechanisms that facilitate the escape of UV radiation. According to cosmological models, galaxy mergers occurred more frequently in the early universe. Assessing the contribution of environment and galaxy interactions at high redshift will be essential to fully understand the first billion years of our universe.

Published

2023

33. Tidal Dwarf Galaxies: Disc Formation at \(z\simeq0\)

Author

Federico Lelli, Pierre-Alain Duc, Elias Brinks, and Stacy S. McGaugh

Subjects

interacting galaxies, peculiar galaxies, Astronomy, QB1-991

Abstract

Collisional debris around interacting and post-interacting galaxies often display condensations of gas and young stars that can potentially form gravitationally bound objects: Tidal Dwarf Galaxies (TDGs). We summarise recent results on TDGs, which are originally published in Lelli et al. (2015, A&A).We study a sample of six TDGs around three different interacting systems, using high-resolution HI observations from the Very Large Array. We find that the HI emission associated to TDGs can be described by rotating disc models. These discs, however, would have undergone less than one orbit since the time of the TDG formation, raising the question of whether they are in dynamical equilibrium. Assuming that TDGs are in dynamical equilibrium, we find that the ratio of dynamical mass to baryonic mass is consistent with one, implying that TDGs are devoid of dark matter. This is in line with the results of numerical simulations where tidal forces effectively segregate dark matter in the halo from baryonic matter in the disc, which ends up forming tidal tails and TDGs.

Published

2015

34. Isolated Galaxies versus Interacting Pairs with MaNGA

Author

María del Carmen Argudo Fernández, Fangting Yuan, Shiyin Shen, Jun Yin, Ruixiang Chang, and Shuai Feng

Subjects

interacting galaxies, isolated galaxies, peculiar galaxies, Astronomy, QB1-991

Abstract

We present preliminary results of the spectral analysis on the radial distributions of the star formation history in both a galaxy merger and a spiral isolated galaxy observed with MaNGA. We find that the central part of the isolated galaxy is composed by older stellar population (~2 Gyr) than in the outskirts (~7 Gyr). Also, the time-scale is gradually larger from 1 Gyr in the inner part to 3 Gyr in the outer regions of the galaxy. In the case of the merger, the stellar population in the central region is older than in the tails, presenting a longer time-scale in comparison to central part in the isolated galaxy. Our results are in agreement with a scenario where spiral galaxies are built from inside-out. In the case of the merger, we find evidence that interactions enhance star formation in the central part of the galaxy.

Published

2015

35. From starburst to quenching: merger-driven evolution of the star formation regimes in a shell galaxy

Author

Jonathan Petersson, Florent Renaud, Oscar Agertz, Avishai Dekel, and Pierre-Alain Duc

Subjects

radiative-transfer, molecular gas, FOS: Physical sciences, Astronomy and Astrophysics, galaxies: starburst, formation law, elliptic galaxies, Astrophysics - Astrophysics of Galaxies, methods: numerical, nuclear activity, interacting galaxies, Space and Planetary Science, Astrophysics of Galaxies (astro-ph.GA), galaxies: star formation, galaxies: interactions, spiral galaxies, tidal streams, simulations, stellar

Abstract

Shell galaxies make a class of tidally distorted galaxies, characterised by wide concentric arc(s), extending out to large galactocentric distances with sharp outer edges. Recent observations of young massive star clusters in the prominent outer shell of NGC 474 suggest that such systems host extreme conditions of star formation. In this paper, we present a hydrodynamic simulation of a galaxy merger and its transformation into a shell galaxy. We analyse how the star formation activity evolves with time, location-wise within the system, and what are the physical conditions for star formation. During the interaction, an excess of dense gas appears, triggering a starburst, i.e. an enhanced star formation rate and a reduced depletion time. Star formation coincides with regions of high molecular gas fraction, such as the galactic nucleus, spiral arms, and occasionally the tidal debris during the early stages of the merger. Tidal interactions scatter stars into a stellar spheroid, while the gas cools down and reforms a disc. The morphological transformation after coalescence stabilises the gas and thus quenches star formation, without the need for feedback from an active galactic nucleus. This evolution shows similarities with a compaction scenario for compact quenched spheroids at high-redshift, yet without a long red nugget phase. Shells appear after coalescence, during the quenched phase, implying that they do not host the conditions necessary for in situ star formation. The results suggest that shell-forming mergers might be part of the process of turning blue late-type galaxies into red and dead early-types., Accepted for publication by MNRAS, 13 pages

Published

2022

36. Evolution and Destruction of Bars

Author

Athanassoula, E., Bosma, A., Hensler, Gerhard, editor, Stasińska, Grażyna, editor, Harfst, Stefan, editor, Kroupa, Pavel, editor, and Theis, Christian, editor

Published

2003

37. SDSS J170745+302056: A low-surface-brightness galaxy in a group.

Author

Reshetnikov, V., Savchenko, S., Moiseev, A., and Egorov, O.

Subjects

*SPIRAL galaxies, *STAR formation, *ASTRONOMICAL photometry, *SURFACE brightness (Astronomy), *GALAXIES

Abstract

Based on SDSS data and spectroscopic observations with the 6-m BTA telescope at SAO RAS, we have studied the galaxy SDSS J170745+302056. By the set of its characteristics- an exponential brightness distribution, a central stellar disk surface brightness μ0(B) = 23m. 25/-, blue colors, a low metallicity, and a moderate star formation rate-this galaxy belongs to typical low-surfacebrightness spiral galaxies. The exponential scale length of the galaxy's disk is ≈3 kpc, while its optical diameter exceeds 20 kpc. SDSS J170745+302056 is a member of a group of five galaxies and possibly interacts with the galaxy UGC 10716. The existence of a large low-surface-brightness galaxy in such a dense environment is very unusual. [ABSTRACT FROM AUTHOR]

Published

2017

38. Spatial environment of polar-ring galaxies from the SDSS.

Author

Savchenko, S. and Reshetnikov, V.

Subjects

*GALACTIC bulges, *POLAR motion (Rotation), *DENSITY of stars, *ASTRONOMICAL models

Abstract

Based on SDSS data, we have considered the spatial environment of galaxies with extended polar rings. We used two approaches: estimating the projected distance to the nearest companion and counting the number of companions as a function of the distance to the galaxy. Both approaches have shown that the spatial environment of polar-ring galaxies on scales of hundreds of kiloparsecs is, on average, less dense than that of galaxies without polar structures. Apparently, one of the main causes of this effect is that the polar structures in a denser environment are destroyed more often during encounters and mergers with other galaxies. [ABSTRACT FROM AUTHOR]

Published

2017

39. Elemental abundances of the hot atmosphere of luminous infrared galaxy Arp 299

Author

Junjie Mao, François Mernier, Jelle Kaastra, Yasushi Fukazawa, Yuanyuan Su, Zhenlin Zhu, Ping Zhou, Aurora Simionescu, Jelle de Plaa, Liyi Gu, and Hiroki Akamatsu

Subjects

Astrophysics::High Energy Astrophysical Phenomena, Astrophysics - astrophysics of galaxies, Chemical abundances, FOS: Physical sciences, Starburst galaxies, Astrophysics, Astrophysics::Cosmology and Extragalactic Astrophysics, Astrophysics - high energy astrophysical phenomena, Atmosphere, X-ray astronomy, Nucleosynthesis, Galaxy group, High resolution spectroscopy, Core-collapse supernovae, Astrophysics::Solar and Stellar Astrophysics, Astrophysics::Galaxy Astrophysics, QB, High Energy Astrophysical Phenomena (astro-ph.HE), Physics, Luminous infrared galaxy, Galaxy groups, Astronomy and Astrophysics, Galaxy, Supernova, Stars, Space and Planetary Science, Interacting galaxies, Astrophysics of Galaxies (astro-ph.GA), Elliptical galaxy, Astrophysics::Earth and Planetary Astrophysics

Abstract

Hot atmospheres of massive galaxies are enriched with metals. Elemental abundances measured in the X-ray band have been used to study the chemical enrichment of supernova remnants, elliptical galaxies, groups and clusters of galaxies. Here we measure the elemental abundances of the hot atmosphere of luminous infrared galaxy Arp 299 observed with XMM-Newton. To measure the abundances in the hot atmosphere, we use a multi-temperature thermal plasma model, which provides a better fit to the Reflection Grating Spectrometer data. The observed Fe/O abundance ratio is subsolar, while those of Ne/O and Mg/O are slightly above solar. Core-collapse supernovae (SNcc) are the dominant metal factory of elements like O, Ne, and Mg. We find some deviations between the observed abundance patterns and theoretical ones from a simple chemical enrichment model. One possible explanation is that massive stars with $M_{\star}\gtrsim23-27~M_{\odot}$ might not explode as SNcc and enrich the hot atmosphere. This is in accordance with the missing massive SNcc progenitors problem, where very massive progenitors $M_{\star}\gtrsim18~M_{\odot}$ of SNcc have not been clearly detected. It is also possible that theoretical SNcc nucleosynthesis yields of Mg/O yields are underestimated., ApJL accepted

Published

2021

40. StarcNet : Machine Learning for Star Cluster Identification

Author

Pérez, Gustavo, Messa, Matteo, Calzetti, Daniela, Maji, Subhransu, Jung, Dooseok E., Adamo, Angela, Sirressi, Mattia, Pérez, Gustavo, Messa, Matteo, Calzetti, Daniela, Maji, Subhransu, Jung, Dooseok E., Adamo, Angela, and Sirressi, Mattia

Abstract

We present a machine learning (ML) pipeline to identify star clusters in the multicolor images of nearby galaxies, from observations obtained with the Hubble Space Telescope as part of the Treasury Project LEGUS (Legacy ExtraGalactic Ultraviolet Survey). StarcNet (STAR Cluster classification NETwork) is a multiscale convolutional neural network (CNN) that achieves an accuracy of 68.6% (four classes)/86.0% (two classes: cluster/noncluster) for star cluster classification in the images of the LEGUS galaxies, nearly matching human expert performance. We test the performance of StarcNet by applying a pre-trained CNN model to galaxies not included in the training set, finding accuracies similar to the reference one. We test the effect of StarcNet predictions on the inferred cluster properties by comparing multicolor luminosity functions and mass-age plots from catalogs produced by StarcNet and by human labeling; distributions in luminosity, color, and physical characteristics of star clusters are similar for the human and ML classified samples. There are two advantages to the ML approach: (1) reproducibility of the classifications: the ML algorithm's biases are fixed and can be measured for subsequent analysis; and (2) speed of classification: the algorithm requires minutes for tasks that humans require weeks to months to perform. By achieving comparable accuracy to human classifiers, StarcNet will enable extending classifications to a larger number of candidate samples than currently available, thus increasing significantly the statistics for cluster studies.

Published

2021

41. Polar-bulge galaxies.

Author

Reshetnikov, V., Savchenko, S., Mosenkov, A., Sotnikova, N., and Bizyaev, D.

Subjects

*GALACTIC bulges, *SPIRAL galaxies, *LUMINOSITY, *DISKS (Astrophysics), *ENERGY bands

Abstract

Based on SDSS data, we have selected a sample of nine edge-on spiral galaxies with bulges whose major axes show a high inclination to the disk plane. Such objects are called polar-bulge galaxies. They are similar in their morphology to polar-ring galaxies, but the central objects in them have small sizes and low luminosities. We have performed a photometric analysis of the galaxies in the g and r bands and determined the main characteristics of their bulges and disks. We show that the disks of such galaxies are typical for the disks of spiral galaxies of late morphological types; the integrated characteristics of their bulges are similar to the parameters of normal bulges. The stellar disks of polar-bulge galaxies often show large-scale warps, which can be explained by their interaction with neighboring galaxies or external accretion from outside. [ABSTRACT FROM AUTHOR]

Published

2015

42. Tidal stellar loops and dark halo of UGC 7388.

Author

Sotnikova, N. and Shapranov, V.

Subjects

*DARK matter, *GALACTIC halos, *ASTRONOMICAL photometry, *ROTATION of galaxies, *LUMINOSITY, *PARAMETERS (Statistics)

Abstract

B-band photometry and the rotation curve based on HI 21-cm line spectroscopy for UGC7388, a late-type edge-on galaxy with two stellar loops in the polar plane, have been used to construct N-body models of the galaxy and its presumed satellite and to simulate the tidal disruption of the satellite giving the stellar loops. The luminosity of the stellar loops has been used to constrain the mass of the disrupted satellite, while the size of the loops and their geometry have been used to constrain the satellite flyby parameters. The constructed dynamical merging model reproduces the loop morphology and refines the dark halo parameters and the fraction of baryonic matter in the galaxy. [ABSTRACT FROM AUTHOR]

Published

2015

43. Searching for Dual AGNs in Galaxy Mergers: Understanding Double-Peaked [O III] as a Selection Method

Author

McGurk, Rosalie Cushman

Subjects

Astronomy, Astrophysics, active galactic nuclei (AGN), adaptive optics, dual AGN, emission lines, interacting galaxies

Abstract

When galaxies merge, gas may accrete onto both central supermassive black holes. Thus, one expects to see close pairs of active galactic nuclei (AGNs), or dual AGNs, in a fraction of galaxy mergers. The existence and statistics of dual AGNs provide an important probe into hierarchical galaxy formation models, accretion-triggering mechanisms, galaxy merger rates, and black hole growth. However, finding them remains a challenge. The presence of double-peaked [O III] has been proposed as a technique to select dual AGNs efficiently. We studied a sample of double-peaked narrow [O III] emitting AGNs from the Sloan Digital Sky Survey. By obtaining new and archival high spatial resolution images taken with the Keck II Laser Guide Star Adaptive Optics system and the near-infrared (IR) camera NIRC2, we showed that 31%+/-3% of double-peaked [O III] emission line SDSS AGNs have two spatial components within a 3" radius. However, the imaging discussed above does not show whether or how the double emission line structure relates to the presence of a companion. Spatially resolved spectroscopy or X-ray observations can confirm these galaxy pairs as systems containing two AGNs. We followed up these spatially-double candidate dual AGNs with integral field spectroscopy from Keck OSIRIS and Gemini GMOS and with long-slit spectroscopy from Keck NIRSPEC and Shane Kast Double Spectrograph. We find double-peaked lines are sometimes dual AGN and sometimes outflows or narrow line kinematics. We also performed Chandra X-ray ACIS-S observations on 12 double-peaked candidate dual AGNs. Using our observations and 8 archival observations, we compare the distribution of X-ray photons to our spatially double near-IR images, measure X-ray luminosities and hardness ratios, and estimate column densities. By assessing what fraction of double-peaked emission line SDSS AGNs are true dual AGNs, we can better determine whether double-peaked [O III] is an efficient dual AGN indicator and constrain the statistics of dual AGNs.

Published

2015

44. Observations of Magnetic Fields in Galaxies.

Author

Beck, Rainer

Subjects

*COSMIC magnetic fields, *GALAXIES, *STAR formation, *MILKY Way, *CRYSTALLOGRAPHY, *SPIRAL galaxies

Abstract

Magnetic fields play an important role in galaxies. Interstellar magnetic fields are strongest in massive spiral arms of galaxies (20–30 μG) and in nuclear starburst regions (up to 100 μG). Processes related to star formation tangle the field lines, so that little polarization is observed in star-forming regions. The magnetic energy density in the inner disk of galaxies is larger than the thermal energy density, comparable to that of turbulent gas motions, and is dominant in the outer disk. Large-scale spiral patterns of the regular field are observed in grand-design, flocculent and even some irregular galaxies. In grand-design galaxies the regular fields are aligned parallel to the optical spiral arms, with the strongest regular fields (highest polarization) in interarm regions, sometimes forming magnetic spiral arms between the optical arms. Polarized emission at the edges of some galaxies is a tracer of field compression due to interactions between galaxies or to ram pressure by the intergalactic medium. — In barred galaxies the magnetic field is mostly aligned with the gas flow, deflected by shear and compressed in the shock. The regular field is already strong in the “upstream” region ahead of the shock. Within the circumnuclear ring the magnetic field is strong, with a regular component of spiral shape. Magnetic stress may drive inflow of gas towards the nucleus. — Faraday rotation of the polarization vectors reveals patterns which are signatures of coherent large-scale fields in galactic disks, probably generated by dynamo action. The majority of field structures in galaxies requires a superposition of several dynamo modes. — In our Milky Way, the structure of the large-scale magnetic field is still unknown. Rotation measure data from pulsars indicate several field reversals, but some of these could be field distortions. Faraday screens offer the new method of tomography of small-scale magnetic structures in the local Milky Way. — Present-day radio polarimetry is limited by sensitivity. The next-generation radio telescope, the Square Kilometer Array (SKA), will be able to reveal the full wealth of magnetic structures in galaxies. Cosmic magnetism is one of the Key Science projects for the SKA. © 2005 American Institute of Physics [ABSTRACT FROM AUTHOR]

Published

2005

45. Hubble & Eddington.

Author

Gondhalekar, Prabhakar

Abstract

Gravity is the only truly universal force. It moulded the universe and it almost certainly will overwhelmingly determine the end of the universe. Today we also know (certainly believe) that gravitation is primarily responsible for the formation of the large structures we see around us: the Earth, the solar system, the stars, and the galaxies. Gravity has fashioned the beautiful and awe-inspiring sights in the sky, which have inspired both philosophers and mystics. Without gravity the sky would have been a very boring sight. Even more exotic objects, only visible at radio, X-ray or other energies, are present in the sky and these have also been fashioned by gravity. After the formation of the solar system, gravity has played a benign role in the evolution of life in the solar system. The strong gravity of Jupiter has shielded Earth from destructive impacts by comets and asteroids, and it is reasonable to say that life on Earth would not have survived without this ‘gravity shield’. It is for this reason that there is such excitement at the discovery of large planets around other stars. Life, as we know it, may not (almost certainly does not) exist on these large planets, but without such a large planet and its gravity shield, life certainly would not survive and flourish on an inner planet if there is one. In this chapter the central role of gravity in shaping the universe and even the climate on Earth is described. FIGURES OF PLANETS The sizes and the figures of the planets have been subjects of inquiry and discussion since antiquity. The Greeks accepted the Platonic belief in perfect shapes and believed that the planets, and the Earth in particular, were perfect spheres. [ABSTRACT FROM AUTHOR]

Published

2001

46. Tidal Disruption of Milky Way Satellites with Shallow Dark Matter Density Profiles

Author

Ewa L. Łokas

Subjects

interacting galaxies, dwarf galaxies, tidal disruption, dark matter, Astronomy, QB1-991

Abstract

Dwarf galaxies of the Local Group provide unique possibilities to test current theories of structure formation. Their number and properties have put the broadly accepted cold dark matter model into question, posing a few problems. These problems now seem close to resolution due to the improved treatment of baryonic processes in dwarf galaxy simulations which now predict cored rather than cuspy dark matter profiles in isolated dwarfs with important consequences for their subsequent environmental evolution. Using N-body simulations, we study the evolution of a disky dwarf galaxy with such a shallow dark matter profile on a typical orbit around the Milky Way. The dwarf survives the first pericenter passage but is disrupted after the second due to tidal forces from the host. We discuss the evolution of the dwarf’s properties in time prior to and at the time of disruption. We demonstrate that the dissolution occurs on a rather short timescale as the dwarf expands from a spheroid into a stream with non-zero mean radial velocity. We point out that the properties of the dwarf at the time of disruption may be difficult to distinguish from bound configurations, such as tidally induced bars, both in terms of surface density and line-of-sight kinematics.

Published

2016

47. Characterization of Bars Induced by Interactions

Author

Inma Martinez-Valpuesta, José Alfonso López Aguerri, and César González-García

Subjects

interacting galaxies, cluster of galaxies, groups of galaxies, Astronomy, QB1-991

Abstract

Whether the formation of bars is triggered by interactions or by internal processes has been discussed for many decades. In this work, we study differences between both mechanisms by means of numerical simulations. We relate our analysis to fly-by interactions in different mass groups or clusters according to the velocity of the encounters. We find that once the bar is created, the interaction does not much affect its evolution. We also find that bars can be triggered purely by a slow interaction. Those bars affected or triggered by interaction stay for a longer time in the slow regime, i.e., the corotation radius is more than 1.4 times the bar radius.

Published

2016

48. Observations of interacting galaxies NGC 2341 and NGC 2342 in X-ray band

Author

O. O. Ponomarenko, A. V. Tugay, and S. Yu. Shevchenko

Subjects

Physics, X-Ray emission, lcsh:Astronomy, Astrophysics::High Energy Astrophysical Phenomena, X-ray, Astrophysics, Astrophysics::Cosmology and Extragalactic Astrophysics, Galaxy, lcsh:QB1-991, interacting galaxies, individual galaxies, General Earth and Planetary Sciences, Astrophysics::Galaxy Astrophysics, General Environmental Science

Abstract

The study of radiation of the interacting galaxies in different ranges enables to identify various processes occurring in them. The most active processes (such as star birth, material accretion onto the black holes, burster flashes, etc.) cause the appearance of X-rays. In our work, we studied the nature of the interacting pair of galaxies NGC 2341 and NGC 2342 in the classical high-energy band 0.3–10 keV. This is an extremely interesting for astrophysics range which is currently being investigated using orbital X-ray observatories. The source of information for this work is the XMM-Newton X-ray space observatory of ESA. According to this telescope observation results, the light curves and the emission spectrum of the objects of study were built. For the purpose of spectral analysis, we used two component power function model. Obtained results were compared with the results of the Mekal blackbody radiation model from the XMM-Newton, Chandra and ROSAT / ASCA surveys. We were not able to isolate individual structures in the X-ray range according to the available observations. We believe that the main source of X-ray radiation from the pair of interacting galaxies NGC 2341/42 is a tidal interaction, which leads to the intensification of the star birth processes in galaxies and also leads to the formation of the active galactic nucleus. Sloped component of the spectrum (1.2–2.3 keV) in the power function model obviously corresponds to the integral emissions of X-ray binaries. Further study of this galactic pair shall make possible to identify individual structures that are the sources of X-ray radiation and to explain their nature. Comparison with other isolated and interacting galaxies suggests that these objects are amongst the most bright in the X-ray range. X-ray studies of interacting and merging galaxies using the XMM-Newton and Chandra orbital observatories shall assists our general understanding of the galaxies evolution and to establish whether the interaction of the galaxies is only one star-forming consequence.

Published

2018

49. AKARI slit-less spectroscopy and broadband infrared photometry observations of Hickson Compact Groups 56 and 92

Author

Galliano, Frederic, Wu, Ronin, Ikeuchi, Ayato, Sakon, Itsuki, and Onaka, Takashi

Subjects

Interacting galaxies, Galaxy evolution, Local Universe, ISM

Abstract

第4回「あかり」国際会議 (2017年10月17-20日. 東京大学), 文京区, 東京, The 4th AKARI International Conference: The Cosmic Wheel and the Legacy of the AKARI archive: from galaxies and stars to planets and life (October 17-20, 2017. The University of Tokyo), Bunkyo-ku, Tokyo, Japan, Based on near- to far-infrared spectral energy distribution (SED) analyses, we have investigated star-formation activities of galaxies in Hickson Compact Groups (HCGs) that indicate clear signs of interactions. The study provides us information on the effects of interactions on the galactic environments of member galaxies and their evolution. We combined AKARI slit-less 2-14 micrometers spectra and 3-24 micrometers medium-band image datasets of HCG 56 and 92, both of which show ongoing interactions, and made a comparison of the observed near- to far-infrared SEDs with the latest SED models of star-forming galaxies and AGNs. We estimated the star-formation rates (SFRs) of the member galaxies via two different methods; i) using the mid-infrared UIR band strength and ii) using the far-infrared luminosity originating from star-formation estimated from the SED model. We found a discrepancy between the SFRs derived from the two methods, in particular for the galaxies that harbor AGNs. We interpreted that this discrepancy could be due to the possible destruction of the carriers of the Unidentified InfraRed (UIR) bands in galaxies with AGNs. In the star formation rate versus stellar mass diagram, all galaxies in HCG 56 and 92 galaxies are distributed below the main sequence of the star-forming SDSS field galaxies. We conclude that the enhanced star-formation due to galaxy interactions is not seen in HCG 56 and 92, or that the star-formation seems to be rather suppressed in these groups., 形態: カラー図版あり, Physical characteristics: Original contains color illustrations, 資料番号: AA1730026065, レポート番号: JAXA-SP-17-009E

Published

2018

50. Stellar content of the interacting galaxies IC 1727 and NGC 672.

Author

Tikhonov, N., Galazutdinova, O., and Lebedev, V.

Subjects

*STELLAR photometry, *GALAXIES, *HR diagrams, *DISTRIBUTION of stars, *STELLAR luminosity function, *STAR formation

Abstract

Based on archival Hubble Space Telescope ACS/WFC images, we have performed stellar photometry for an isolated pair of interacting galaxies, IC 1727 and NGC 672, and constructed their Hertzsprung-Russell diagrams. The galaxy IC 1727 exhibits a strong asymmetry in the apparent distribution of young stars. The distribution of old stars is smoother and less asymmetric. In the galaxy NGC672, there is no noticeable asymmetry in the distribution of stars of different ages. Based on the TRGB method, we have determined an accurate distance to each galaxy for the first time: D = 7.14 ± 0.10 Mpc for IC 1727 and D = 7.22 ± 0.10 Mpc for NGC 672, confirming that these galaxies are closely spaced. The luminosity functions of red supergiants and peripheral AGB stars in both galaxies have positionally coincident local maxima, suggesting the simultaneous enhancement of star formation in the two galaxies occurred in the intervals 20-30 and 450-700 Myr ago. The results obtained point to an enhancement of star formation processes in the interacting galaxies. [ABSTRACT FROM AUTHOR]

Published

2014