Your search keyword '"Romero-Cañizales, Cristina"' showing total 3 results

1. EVN observations of the farthest and brightest ULIRGs in the local Universe: the case of IRAS 23365+3604.

Author

Romero-Cañizales, Cristina, Pérez-Torres, Miguel Ángel, and Alberdi, Antxon

Subjects

*ASTRONOMICAL observations, *INFRARED technology, *VERY long baseline interferometry, *HIGH resolution imaging, *STARBURSTS, *SPECTRUM analysis, *MAGNETIC fields

Abstract

ABSTRACT We present high-resolution, high-sensitivity radio images of the ultra-luminous infrared galaxy (ULIRG) IRAS 23365+3604. We performed contemporaneous observations at 1.7 and 5.0 GHz, in three epochs separated by 1 year from each other, with the European Very Long Baseline Interferometry (VLBI) Network (EVN). We also present complementary Multi-Element Radio Linked Interferometry Network (MERLIN) at 1.6 and 5.0 GHz, and archival Very Large Array data, taken at 1.4 and 4.9 GHz. We find that the emission at ∼5.0 GHz remains quite compact as seen at different resolutions, whereas at ∼1.7 GHz, high-resolution imaging reveals some extended structure. The nuclear region has an approximate linear size of 200 pc and shows the presence of two main emission components: (i) one with a composite spectrum due to ongoing non-thermal activity (probably due to recently exploded supernovae and the presence of an active galactic nucleus), and (ii) the other with a steep spectrum, likely dominated by an old population of radio emitters, such as supernova remnants. Radiative losses are important, so re-acceleration or replenishment of new electrons is necessary. We estimate a magnetic field strength of ∼ 18 μG at galactic and ∼ 175 μG at nuclear scales, which are typical for galaxies in advanced mergers. [ABSTRACT FROM AUTHOR]

Published

2012

2. The PARADIGM project I: a multiscale radio morphological analysis of local U/LIRGS.

Author

Lucatelli, Geferson, Beswick, Robert J, Moldón, Javier, Pérez-Torres, Miguel A, Conway, John E, Alberdi, Antxon, Romero-Cañizales, Cristina, Varenius, Eskil, Klöckner, Hans-Rainer, Barcos-Muñoz, Loreto, Bondi, Marco, Garrington, Simon T, Aalto, Susanne, Baan, Willem A, and Pihlström, Ylva M

Subjects

*GALAXY mergers, *STAR formation, *SYNCHROTRON radiation, *NUCLEAR structure, *DECOMPOSITION method, *STARBURSTS, *RADIO technology

Abstract

Disentangling the radio flux contribution from star formation (SF) and active-galactic-nuclei (AGNs) activity is a long-standing problem in extragalactic astronomy, since at frequencies of ≲ 10 GHz, both processes emit synchrotron radiation. We present in this work the general objectives of the PARADIGM (PAnchromatic high-Resolution Analysis of DIstant Galaxy Mergers) project, a multi-instrument concept to explore SF and mass assembly of galaxies. We introduce two novel general approaches for a detailed multiscale study of the radio emission in local (ultra) luminous infrared galaxies (U/LIRGs). In this work, we use archival interferometric data from the Very Large Array (VLA) centred at ∼ 6 GHz (C band) and present new observations from the e -Multi-Element Radio-Linked Interferometer Network (e -MERLIN) for UGC 5101, VV 705, VV 250, and UGC 8696. Using our image decomposition methods, we robustly disentangle the radio emission into distinct components by combining information from the two interferometric arrays. We use e -MERLIN as a probe of the core-compact radio emission (AGN or starburst) at ∼ 20 pc scales, and as a probe of nuclear diffuse emission, at scales ∼100–200 pc. With VLA, we characterize the source morphology and the flux density on scales from ∼200 pc up to and above 1 kpc. As a result, we find deconvolved and convolved sizes for nuclear regions from ∼10 to ∼200 pc. At larger scales, we find sizes of 1.5–2 kpc for diffuse structures (with effective sizes of ∼ 300–400 pc). We demonstrate that the radio emission from nuclear extended structures (∼ 100 pc) can dominate over core-compact components, providing a significant fraction of the total multiscale SF output. We establish a multiscale radio tracer for SF by combining information from different instruments. Consequently, this work sets a starting point to potentially correct for overestimations of AGN fractions and underestimates of SF activity. [ABSTRACT FROM AUTHOR]

Published

2024

3. Shutting down or powering up a (U)LIRG? Merger components in distinctly different evolutionary states in IRAS 19115–2124 (the Bird).

Author

Väisänen, Petri, Reunanen, Juha, Kotilainen, Jari, Mattila, Seppo, Johansson, Peter H., Ramphul, Rajin, Romero-Cañizales, Cristina, and Kuncarayakti, Hanindyo

Subjects

*STELLAR evolution, *STAR formation, *STARBURSTS, *SPECTRUM analysis, *SOUTHERN African Large Telescope (South Africa : Telescope)

Abstract

We present new SINFONI near-infrared (NIR) integral field unit (IFU) spectroscopy and Southern African Large Telescope (SALT) optical long-slit spectroscopy characterizing the history of a nearby merging luminous infrared galaxy, dubbed the Bird (IRAS19115–2124). The NIR line-ratio maps of the IFU data cubes and stellar population fitting of the SALT spectra now allow dating of the star formation (SF) over the triple system uncovered from our previous adaptive optics data. The distinct components separate clearly in line-ratio diagnostic diagrams, both thermal and non-thermal excitation is present. An off-nuclear starburst dominates the current SF of the Bird with 60-70 per cent of the total, with a 4-7 Myr age. The most massive nucleus, in contrast, is quenched with a starburst age of >40 Myr and shows hints of budding active galactic nucleus (AGN) activity. The secondary massive nucleus is at an intermediate stage. The two major components have signs of an older stellar population, consistent with a starburst triggered 1 Gyr ago in a first encounter. The simplest explanation of the history is that of a triple merger, where the strongly star-forming component has joined later. We detect multiple gas flows. The Bird offers an opportunity to witness multiple stages of galaxy evolution in the same system; triggering as well as very recent quenching of SF, and, perhaps, an early appearance of AGN activity. It also serves as a cautionary note on interpretations of observations with lower spatial resolution and/or without infrared data. At high redshift the system would look like a clumpy starburst with crucial pieces of its puzzle hidden in danger of misinterpretations. [ABSTRACT FROM AUTHOR]

Published

2017