Your search keyword '"Damas-Segovia, A"' showing total 7 results

1. The MPIfR–MeerKAT Galactic Plane Survey – I. System set-up and early results.

Author

Padmanabh, P V, Barr, E D, Sridhar, S S, Rugel, M R, Damas-Segovia, A, Jacob, A M, Balakrishnan, V, Berezina, M, Bernadich, M C, Brunthaler, A, Champion, D J, Freire, P C C, Khan, S, Klöckner, H-R, Kramer, M, Ma, Y K, Mao, S A, Men, Y P, Menten, K M, and Sengupta, S

Subjects

INTERSTELLAR medium, GALACTIC magnetic fields, NEUTRON stars, BINARY stars, SPECTRAL lines

Abstract

Galactic plane radio surveys play a key role in improving our understanding of a wide range of astrophysical phenomena. Performing such a survey using the latest interferometric telescopes produces large data rates necessitating a shift towards fully or quasi-real-time data analysis with data being stored for only the time required to process them. We present here the overview and set-up for the 3000-h Max-Planck-Institut für Radioastronomie (MPIfR)–MeerKAT Galactic Plane Survey (MMGPS). The survey is unique by operating in a commensal mode, addressing key science objectives of the survey including the discovery of new pulsars and transients and studies of Galactic magnetism, the interstellar medium and star formation rates. We explain the strategy coupled with the necessary hardware and software infrastructure needed for data reduction in the imaging, spectral, and time domains. We have so far discovered 78 new pulsars including 17 confirmed binary systems of which two are potential double neutron star systems. We have also developed an imaging pipeline sensitive to the order of a few tens of micro-Jansky (⁠|$\mu{\rm Jy}$|⁠) with a spatial resolution of a few arcseconds. Further science operations with an in-house built S-band receiver operating between 1.7 and 3.5 GHz are about to commence. Early spectral line commissioning observations conducted at S-band, targeting transitions of the key molecular gas tracer CH at 3.3 GHz already illustrate the spectroscopic capabilities of this instrument. These results lay a strong foundation for future surveys with telescopes like the Square Kilometre Array (SKA). [ABSTRACT FROM AUTHOR]

Published

2023

2. CHANG-ES XXIX: the sub-kpc nuclear bubble of NGC 4438.

Author

Li, Jiang-Tao, Wang, Q Daniel, Wiegert, Theresa, Bregman, Joel N, Beck, Rainer, Damas-Segovia, Ancor, Irwin, Judith A, Ji, Li, Stein, Yelena, Sun, Wei, and Yang, Yang

Subjects

SYNCHROTRON radiation, STARBURSTS, VIRGO Cluster, INTERSTELLAR medium, X-ray spectra, ACTIVE galactic nuclei, COSMIC rays

Abstract

Active galactic nucleus (AGN) bubbles could play an important role in accelerating high-energy cosmic rays (CRs) and galactic feedback. Only in nearby galaxies could we have high enough angular resolution in multiwavelengths to study the sub-kpc environment of the AGN, where the bubbles are produced and strongly interact with the surrounding interstellar medium. In this paper, we present the latest Chandra observations of the Virgo cluster galaxy NGC 4438, which hosts multiscale bubbles detected in various bands. The galaxy also has low current star formation activity, so these bubbles are evidently produced by the AGN rather than a starburst. We present spatially resolved spectral analysis of the Chandra data of the ∼3 arcsec × 5 arcsec (⁠|${\sim} 200{\rm ~pc}\times 350\rm ~pc$|⁠) nuclear bubble of NGC 4438. The power-law tail in the X-ray spectra can be most naturally explained as synchrotron emission from high-energy CR leptons. The hot gas temperature increases, while the overall contribution of the non-thermal X-ray emission decreases with the vertical distance from the galactic plane. We calculate the synchrotron cooling time-scale of the CR leptons responsible for the non-thermal hard X-ray emission to be only a few tens to a few hundreds of years. The thermal pressure of the hot gas is about three times the magnetic pressure, but the current data cannot rule out the possibility that they are still in pressure balance. The spatially resolved spectroscopy presented in this paper may have important constraints on how the AGN accelerates CRs and drives outflows. We also discover a transient X-ray source only ∼5 arcsec from the nucleus of NGC 4438. The source was not detected in 2002 and 2008, but became quite X-ray bright in 2020 March, with an average 0.5–7 keV luminosity of |${\sim} 10^{39}\rm ~erg~s^{-1}$|⁠. [ABSTRACT FROM AUTHOR]

Published

2022

3. CHANG-ES XXIII: influence of a galactic wind in NGC 5775.

Author

Heald, G H, Heesen, V, Sridhar, S S, Beck, R, Bomans, D J, Brüggen, M, Chyży, K T, Damas-Segovia, A, Dettmar, R-J, English, J, Henriksen, R, Ideguchi, S, Irwin, J, Krause, M, Li, J-T, Murphy, E J, Nikiel-Wroczyński, B, Piotrowska, J, Rand, R J, and Shimwell, T

Subjects

STELLAR evolution, MAGNETIC flux density, INTERSTELLAR medium, COSMIC rays, STARBURSTS, GALACTIC magnetic fields, STELLAR winds

Abstract

We present new radio continuum images of the edge-on starburst galaxy NGC 5775, from LOFAR (140 MHz) and the Karl G. Jansky Very Large Array CHANG-ES survey (1500 MHz). We trace the non-thermal radio halo up to 13 kpc from the disc, measuring the non-thermal spectral index and estimating the total equipartition magnetic field strength (≈13  |$\mu$| G in the disc and ≈7  |$\mu$| G above the plane). The radio halo has a similar extent at both frequencies, displays evidence for localized cosmic ray streaming coinciding with prominent H α filaments and vertical extensions of the regular magnetic field, and exhibits a boxy morphology especially at 140 MHz. In order to understand the nature of the disc–halo flow, we extend our previous model of cosmic ray propagation by implementing an iso-thermal wind with a tunable 'flux tube' (approximately hyperboloidal) geometry. This updated model is successful in matching the vertical distribution of non-thermal radio emission, and the vertical steepening of the associated spectral index, in a consistent conceptual framework with few free parameters. Our new model provides the opportunity to estimate the mass outflow driven by the star formation process, and we find an implied rate of |$\dot{M}\approx 3$| – |$6\, \mathrm{M_{\odot }\, yr^{-1}}$| (≈40–80 per cent of the star formation rate) if the escape velocity is reached, with substantial uncertainty arising from the poorly understood distribution of interstellar medium material entrained in the vertical flow. The wind may play a role in influencing the vertical gradient in rotational velocity. [ABSTRACT FROM AUTHOR]

Published

2022

4. CHANG-ES VIII: Uncovering Hidden AGN Activity in Radio Polarization

Author

Judith A. Irwin, Kendall Sullivan, Jiang-Tao Li, Ancor Damas-Segovia, Patrick Kamieneski, Richard N. Henriksen, Rainer Beck, Marita Krause, Dylan Pare, Theresa Wiegert, Q. Daniel Wang, Philip Schmidt, Jayanne English, George Heald, and Richard J. Rand

Subjects

Radio galaxy, Astrophysics::High Energy Astrophysical Phenomena, FOS: Physical sciences, 02 engineering and technology, Astrophysics, Astrophysics::Cosmology and Extragalactic Astrophysics, 01 natural sciences, X-shaped radio galaxy, 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering, Astrophysics::Solar and Stellar Astrophysics, 010303 astronomy & astrophysics, Astrophysics::Galaxy Astrophysics, Physics, Linear polarization, Astronomy, 020206 networking & telecommunications, Astronomy and Astrophysics, Polarization (waves), Astrophysics - Astrophysics of Galaxies, Galaxy, Magnetic field, Interstellar medium, Space and Planetary Science, Astrophysics of Galaxies (astro-ph.GA), Outflow

Abstract

We report on C-band (5 - 7 GHz) observations of the galaxy, NGC~2992, from the CHANG-ES sample. This galaxy displays an embedded nuclear double-lobed radio morphology within its spiral disk, as revealed in linearly polarized emission but {\it not} in total intensity emission. The radio lobes are kpc-sized, similar to what has been observed in the past for other Seyfert galaxies, and show ordered magnetic fields. NGC~2992 has shown previous evidence for AGN-related activity, but not the linearly polarized radio features that we present here. We draw attention to this galaxy as the first clear example (and prototype) of bipolar radio outflow that is revealed in linearly polarized emission only. Such polarization observations, which are unobscured by dust, provide a new tool for uncovering hidden weak AGN activity which may otherwise be masked by brighter unpolarized emission within which it is embedded. The radio lobes observed in NGC~2992 are interacting with the surrounding interstellar medium and offer new opportunities to investigate the interactions between nuclear outflows and the ISM in nearby galaxies. We also compare the radio emission with a new CHANDRA X-ray image of this galaxy. A new CHANG-ES image of NGC~3079 is also briefly shown as another example as to how much more obvious radio lobes appear in linear polarization as opposed to total intensity., 23 pages, 8 figures, accepted by MNRAS

Published

2016

5. CHANG-ES IX. Radio scale heights and scale lengths of a consistent sample of 13 spiral galaxies seen edge-on and their correlations.

Author

Krause, Marita, Irwin, Judith, Wiegert, Theresa, Miskolczi, Arpad, Damas-Segovia, Ancor, Beck, Rainer, Li, Jiang-Tao, Heald, George, Müller, Peter, Stein, Yelena, Rand, Richard J., Heesen, Volker, Walterbos, Rene A. M., Dettmar, Ralf-Jürgen, Vargas, Carlos J., English, Jayanne, and Murphy, Eric J.

Subjects

SPIRAL galaxies, GALACTIC halos, GALACTIC magnetic fields, INTERSTELLAR medium, COSMIC rays

Abstract

Aims. The vertical halo scale height is a crucial parameter to understand the transport of cosmic-ray electrons (CRE) and their energy loss mechanisms in spiral galaxies. Until now, the radio scale height could only be determined for a few edge-on galaxies because of missing sensitivity at high resolution. Methods. We developed a sophisticated method for the scale height determination of edge-on galaxies. With this we determined the scale heights and radial scale lengths for a sample of 13 galaxies from the CHANG-ES radio continuum survey in two frequency bands. Results. The sample average values for the radio scale heights of the halo are 1:1 ± 0:3 kpc in C-band and 1:4 ± 0:7 kpc in L-band. From the frequency dependence analysis of the halo scale heights we found that the wind velocities (estimated using the adiabatic loss time) are above the escape velocity. We found that the halo scale heights increase linearly with the radio diameters. In order to exclude the diameter dependence, we defined a normalized scale height h which is quite similar for all sample galaxies at both frequency bands and does not depend on the star formation rate or the magnetic field strength. However, h shows a tight anticorrelation with the mass surface density. Conclusions. The sample galaxies with smaller scale lengths are more spherical in the radio emission, while those with larger scale lengths are flatter. The radio scale height depends mainly on the radio diameter of the galaxy. The sample galaxies are consistent with an escape-dominated radio halo with convective cosmic ray propagation, indicating that galactic winds are a widespread phenomenon in spiral galaxies. While a higher star formation rate or star formation surface density does not lead to a higher wind velocity, we found for the first time observational evidence of a gravitational deceleration of CRE outflow, e.g. a lowering of the wind velocity from the galactic disk. [ABSTRACT FROM AUTHOR]

Published

2018

6. CHANG-ES - VIII. Uncovering hidden AGN activity in radio polarization.

Author

Irwin, Judith A., Schmidt, Philip, Damas-Segovia, A., Beck, Rainer, English, Jayanne, Heald, George, Henriksen, Richard N., Krause, Marita, Jiang-Tao Li, Rand, Richard J., Wang, Q. Daniel, Wiegert, Theresa, Kamieneski, Patrick, Paré, Dylan, and Sullivan, Kendall

Subjects

GALACTIC nuclei, POLARIZATION (Nuclear physics), GALACTIC halos, SEYFERT galaxies, MAGNETIC fields, INTERSTELLAR medium

Abstract

We report on C-band (5-7 GHz) observations of the galaxy, NGC 2992, from the Continuum Halos in Nearby Galaxies - an EVLA Survey (CHANG-ES) sample. This galaxy displays an embedded nuclear double-lobed radio morphology within its spiral disc, as revealed in linearly polarized emission but not in total intensity emission. The radio lobes are kpc-sized, similar to what has been observed in the past for other Seyfert galaxies, and show ordered magnetic fields. NGC 2992 has shown previous evidence for AGN-related activity, but not the linearly polarized radio features that we present here. We draw attention to this galaxy as the first clear example (and prototype) of bipolar radio outflow that is revealed in linearly polarized emission only. Such polarization observations, which are unobscured by dust, provide a new tool for uncovering hidden weak active galactic nucleus (AGN) activity which may otherwise be masked by brighter unpolarized emission within which it is embedded. The radio lobes observed in NGC 2992 are interacting with the surrounding interstellar medium (ISM) and offer new opportunities to investigate the interactions between nuclear outflows and the ISM in nearby galaxies. We also compare the radio emission with a new CHANDRA X-ray image of this galaxy. A new CHANG-ES image of NGC 3079 is also briefly shown as another example as to how much more obvious radio lobes appear in linear polarization as opposed to total intensity. [ABSTRACT FROM AUTHOR]

Published

2017

7. The Radio Spectral Energy Distribution and Star-formation Rate Calibration in Galaxies.

Author

F. S. Tabatabaei, M. Galametz, K. Sandstrom, M. Boquien, D. Calzetti, R. C. Kennicutt, L. K. Hunt, I. De Looze, E. W. Pellegrini, E. Schinnerer, G. Dumas, S. Meidt, M. Krause, A. Damas-Segovia, R. Beck, E. J. Murphy, D. D. Mulcahy, B. Groves, A. Bolatto, and D. Dale

Subjects

INTERSTELLAR medium, SPECTRAL energy distribution, STAR formation, STELLAR evolution, CALIBRATION

Abstract

We study the spectral energy distribution (SED) of the radio continuum (RC) emission from the Key Insight in Nearby Galaxies Emitting in Radio (KINGFISHER) sample of nearby galaxies to understand the energetics and origin of this emission. Effelsberg multi-wavelength observations at 1.4, 4.8, 8.4, and 10.5 GHz combined with archive data allow us, for the first time, to determine the mid-RC (1–10 GHz, MRC) bolometric luminosities and further present calibration relations versus the monochromatic radio luminosities. The 1–10 GHz radio SED is fitted using a Bayesian Markov Chain Monte Carlo technique leading to measurements for the nonthermal spectral index () and the thermal fraction () with mean values of for the total spectral index) and = (10 ± 9)% at 1.4 GHz. The MRC luminosity changes over ∼3 orders of magnitude in the sample, MRC . The thermal emission is responsible for ∼23% of the MRC on average. We also compare the extinction-corrected diagnostics of the star-formation rate (SFR) with the thermal and nonthermal radio tracers and derive the first star-formation calibration relations using the MRC radio luminosity. The nonthermal spectral index flattens with increasing SFR surface density, indicating the effect of the star-formation feedback on the cosmic-ray electron population in galaxies. Comparing the radio and IR SEDs, we find that the FIR-to-MRC ratio could decrease with SFR, due to the amplification of the magnetic fields in star-forming regions. This particularly implies a decrease in the ratio at high redshifts, where mostly luminous/star-forming galaxies are detected. [ABSTRACT FROM AUTHOR]

Published

2017