Your search keyword '"Dabhade, Pratik"' showing total 126 results

1. Ten years of searching for relics of AGN jet feedback through RAD@home citizen science

Author

Hota, Ananda, Dabhade, Pratik, Machado, Prasun, Kumar, Avinash, Avinash, Ck., Manaswini, Ninisha, Das, Joydeep, Sethi, Sagar, Sahoo, Sumanta, Dubal, Shilpa, Bhoga, Sai Arun Dharmik, Navaneeth, P. K., Konar, C., Pal, Sabyasachi, Vaddi, Sravani, Apoorva, Prakash, Rajoria, Megha, and Purohit, Arundhati

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Understanding the evolution of galaxies cannot exclude the important role played by the central supermassive black hole and the circumgalactic medium (CGM). Simulations have strongly suggested the negative feedback of AGN Jet/wind/outflows on the ISM/CGM of a galaxy leading to the eventual decline of star formation. However, no "smoking gun" evidence exists so far where relics of feedback, observed in any band, are consistent with the time scale of a major decline in star formation, in any sample of galaxies. Relics of any AGN-driven outflows will be observed as a faint and fuzzy structure which may be difficult to characterise by automated algorithms but trained citizen scientists can possibly perform better through their intuitive vision with additional heterogeneous data available anywhere on the Internet. RAD@home, launched on 15th April 2013, is not only the first Indian Citizen Science Research (CSR) platform in astronomy but also the only CSR publishing discoveries using any Indian telescope. We briefly report 11 CSR discoveries collected over the last eleven years. While searching for such relics we have spotted cases of offset relic lobes from elliptical and spiral, episodic radio galaxies with overlapping lobes as the host galaxy is in motion, large diffuse spiral-shaped emission, cases of jet-galaxy interaction, kinks and burls on the jets, a collimated synchrotron thread etc. Such exotic sources push the boundaries of our understanding of classical Seyferts and radio galaxies with jets and the process of discovery prepares the next generation for science with the upgraded GMRT and Square Kilometre Array Observatory (SKAO)., Comment: 14 pages, 8 figures. Accepted for publication in the Springer-Nature conference proceedings for "ISRA 2023: The Relativistic Universe: From Classical to Quantum Proceedings of the International Symposium on Recent Developments in Relativistic Astrophysics". Comments and collaborations, most welcome! Please visit #RADatHomeIndia website at radathomeindia.org

Published

2024

2. Search and analysis of giant radio galaxies with associated nuclei (SAGAN) V. Study of giant double-double radio galaxies from LoTSS DR2

Author

Dabhade, Pratik, Chavan, Kshitij, Saikia, D. J., Oei, Martijn S. S. L., and Rottgering, Huub J. A.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

To test the hypothesis that megaparsec-scale giant radio galaxies (GRGs) have multiple epochs of recurrent activity which lead to their giant sizes and to understand the nature of double-double radio galaxies (DDRGs), we have built the largest sample of giant DDRGs from the LOFAR Two Metre Sky Survey (LoTSS). The sample consists of 111 sources, of which 76 are newly identified. Their redshift and total projected size ranges are between 0.06 to 1.6 and 0.7 Mpc to 3.2 Mpc, respectively. We conducted a detailed analysis to characterise their properties, including arm-length ratios, flux density ratios of pairs of lobes, and misalignment angles. These measurements allow us to study the symmetry parameters, which are influenced by the immediate and large-scale environments of DDRGs. Our study conclusively shows that the cocoons in which the inner lobes of DDRGs grow are often contaminated with surrounding material from the external medium, leading to observed asymmetries in the inner lobes. Our analysis also reveals highly misaligned DDRGs, which could be due to environmental factors and/or changes in the supermassive black hole jet ejection axes. By studying the misalignment angles, we assess the stability of the jets in these systems in relation to their environment. Additionally, we have also characterised the large-scale environments of DDRGs, identifying them within dense galaxy clusters and studying how cluster weather significantly affects their morphologies. Interestingly, we have identified two gigahertz peaked-spectrum (GPS) candidates in the unresolved cores of the DDRGs, as well as one triple-double candidate, which, if confirmed, would be only the fifth known case. Additionally, we have discovered a DDRG in a distant galaxy cluster at $z\sim$\,1.4. Abridged., Comment: Submitted to A&A journal. 24 Pages. Comments are welcome

Published

2024

3. Search and analysis of giant radio galaxies with associated nuclei (SAGAN) IV. Interplay with the Supercluster environment

Author

Sankhyayan, Shishir and Dabhade, Pratik

Subjects

Astrophysics - Astrophysics of Galaxies, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We investigated the prevalence of giant radio galaxies (GRGs), some of the largest structures powered by supermassive black holes, within supercluster environments, and the influence of such environments on their properties. Utilising two large catalogues of superclusters (401) and GRGs (1446), we established the existence of 77 GRGs (5.3%) residing in 64 superclusters (16%) within $\rm 0.05 \leq z \leq 0.42$. Among the 77 GRGs found in superclusters, we identified $\sim$70% as residing within galaxy clusters. Within the subset of GRGs not located in superclusters, which constitutes 94.7% of the sample, a mere 21% are associated with galaxy clusters, while the remaining majority are situated in sparser environments. We examined the influence of differing environments, such as cluster versus non-cluster and supercluster versus non-supercluster regions, on the size of GRGs, while also exploring the driving factors behind their overall growth. Our findings show that the largest GRGs ($\gtrsim$3 Mpc) grow in underdense environments beyond the confines of dense environments. Moreover, we show that $\sim$ 24% of 1446 GRGs reside in galaxy clusters. We conclude that GRGs preferentially grow in sparser regions of the cosmic web and have a significantly larger median size. Finally, we demonstrate the potential of GRGs as astrophysical probes with specific cases where GRGs, exhibiting polarised emissions and located behind superclusters (acting as natural Faraday screens), were used to estimate magnetic field strengths of the supercluster environment at sub-microgauss levels., Comment: Accepted for publication in A&A Letters

Published

2024

4. Unveiling the Bulge-Disc Structure, AGN Feedback, and Baryon Landscape in a Massive Spiral Galaxy with Mpc-Scale Radio Jets

Author

Bagchi, Joydeep, Ray, Shankar, Dhiwar, Suraj, Dabhade, Pratik, Barth, Aaron, Ho, Luis C., Mirakhor, Mohammad S., Walker, Stephen A., Nesvadba, Nicole, Combes, Francoise, Fabian, Andrew, and Jacob, Joe

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

This study delves into the bulge-disc components and stellar mass distribution in the fast-rotating, highly massive spiral galaxy 2MASX~J23453268-0449256, distinguished by extraordinary radio jets extending to Mpc scales. Using high-resolution multi-wavelength Hubble Space Telescope (HST) observations and multi-parameter panchromatic spectral energy distribution (SED) fitting, we derive estimates for the star formation rate, total baryonic mass in stars, and warm dust properties. Our findings, validated at a spatial resolution of approximately 100 pc, reveal a pseudo-bulge rather than a classical bulge and a small nuclear bar and resonant ring, challenging conventional models of galaxy formation. Additionally, the lack of tidal debris and the highly symmetric spiral arms within a rotationally supported stellar disc indicate a tranquil coevolution of the galactic disc and its supermassive black hole (SMBH). Significantly, the galaxy exhibits suppressed star formation in its center, potentially influenced by feedback from the central accreting SMBH with powerful radio jets. Detailed multi-wavelength studies of potential star-forming gas disclose that, while hot X-ray gas cools down in the galaxy's halo, new stars do not form in the center, likely due to feedback effects. This study raises questions about the efficient fueling and sustained collimated jet ejection activity in J2345-0449, underscoring the imperative need for a comprehensive understanding of its central black hole engine properties, which are presently lacking. The exceptional rarity of galaxies like 2MASX~J23453268-0449256 presents intriguing challenges in unraveling the physical processes responsible for their unique characteristics., Comment: Submitted to MNRAS

Published

2024

5. Luminous giants populate the dense Cosmic Web: The radio luminosity-environmental density relation for radio galaxies in action

Author

Oei, Martijn S. S. L., van Weeren, Reinout J., Hardcastle, Martin J., Gast, Aivin R. D. J. G. I. B., Leclercq, Florent, Röttgering, Huub J. A., Dabhade, Pratik, Shimwell, Tim W., and Botteon, Andrea

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - Astrophysics of Galaxies, Astrophysics - High Energy Astrophysical Phenomena

Abstract

Giant radio galaxies (GRGs, giant RGs, or giants) are megaparsec-scale, jet-driven outflows from accretion disks of supermassive black holes, and represent the most extreme pathway by which galaxies can impact the Cosmic Web around them. A long-standing but unresolved question is why giants are so much larger than other radio galaxies. It has been proposed that, in addition to having higher jet powers than most RGs, giants might live in especially low-density Cosmic Web environments. In this work, we aim to test this hypothesis by pinpointing Local Universe giants and other RGs in physically principled, Bayesian large-scale structure reconstructions. More specifically, we localised a LOFAR Two-metre Sky Survey (LoTSS) DR2-dominated sample of luminous ($l_\nu(\nu = 150\ \mathrm{MHz}) \geq 10^{24}\ \mathrm{W\ Hz^{-1}}$) giants and a control sample of LoTSS DR1 RGs, both with spectroscopic redshifts up to $z_\mathrm{max} = 0.16$, in the BORG SDSS Cosmic Web reconstructions. We measured the Cosmic Web density for each RG; for the control sample, we then quantified the relation between RG radio luminosity and Cosmic Web density. With the BORG SDSS tidal tensor, we also measured for each RG whether the gravitational dynamics of its Cosmic Web environment resemble those of clusters, filaments, sheets, or voids. Luminous giants populate large-scale environments that tend to be denser than those of general RGs. This shows that -- at least at high jet powers -- low-density environments are no prerequisite for giant growth. This result is corroborated by gravitational dynamics classification and a cluster catalogue crossmatching analysis. This work presents more than a thousand inferred megaparsec-scale densities around radio galaxies. Our findings are consistent with the view that giants are regular, rather than mechanistically special, members of the radio galaxy population., Comment: 28 pages, 21 figures, 4 tables, accepted for publication in Astronomy & Astrophysics

Published

2024

6. Identification of Superclusters and their Properties in the Sloan Digital Sky Survey Using WHL Cluster Catalog

Author

Sankhyayan, Shishir, Bagchi, Joydeep, Tempel, Elmo, More, Surhud, Einasto, Maret, Dabhade, Pratik, Raychaudhury, Somak, Athreya, Ramana, and Heinämäki, Pekka

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Superclusters are the largest massive structures in the cosmic web on tens to hundreds of megaparsecs (Mpc) scales. They are the largest assembly of galaxy clusters in the Universe. Apart from a few detailed studies of such structures, their evolutionary mechanism is still an open question. In order to address and answer the relevant questions, a statistically significant, large catalog of superclusters covering a wide range of redshifts and sky areas is essential. Here, we present a large catalog of 662 superclusters identified using a modified $\textit{ Friends of Friends}$ algorithm applied on the WHL (Wen-Han-Liu) cluster catalog within a redshift range of $0.05 \le z \le 0.42$. We name the most massive supercluster at $z \sim 0.25$ as $\textit{Einasto Supercluster}$. We find that the median mass of superclusters is $\sim 5.8 \times 10^{15}$ M$_{\odot}$ and median size $\sim 65$ Mpc. We find that the supercluster environment slightly affects the growth of clusters. We compare the properties of the observed superclusters with the mock superclusters extracted from the Horizon Run 4 cosmological simulation. The properties of superclusters in mocks and observations are in broad agreement. We find that the density contrast of a supercluster is correlated with its maximum extent with a power law index, $\alpha \sim -2$. The phase-space distribution of mock superclusters shows that, on average, $\sim 90\%$ part of a supercluster has a gravitational influence on its constituents. We also show mock halos' average number density and peculiar velocity profiles in and around the superclusters., Comment: 23 pages, 16 figures, and 2 tables. Accepted for publication in ApJ

Published

2023

7. Evidence for low power radio jet-ISM interaction at 10 parsec in the dwarf AGN host NGC 4395

Author

Nandi, Payel, Stalin, C. S., Saikia, D. J., Riffel, Rogemar A., Manna, Arijit, Pal, Sabyasachi, Dors, O. L., Wylezalek, Dominika, Paliya, Vaidehi S., Saikia, P., Dabhade, Pratik, Patig, Markus-Kissler, and Sagar, Ram

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Black hole driven outflows in galaxies hosting active galactic nuclei (AGN) may interact with their interstellar medium (ISM) affecting star formation. Such feedback processes, reminiscent of those seen in massive galaxies, have been reported recently in some dwarf galaxies. However, such studies have usually been on kiloparsec and larger scales and our knowledge on the smallest spatial scales to which these feedback processes can operate is unclear. Here we demonstrate radio jet$-$ISM interaction on the scale of an asymmetric triple radio structure of $\sim$ 10 parsec size in NGC 4395. This triple radio structure is seen in the 15 GHz continuum image and the two asymmetric jet-like structures are situated on either side of the radio core that coincides with the optical {\it Gaia} position. The high resolution radio image and the extended [OIII]$\lambda$5007 emission, indicative of an outflow, are spatially coincident and are consistent with the interpretation of a low power radio jet interacting with the ISM. Modelling of the spectral lines using {\tt MAPPINGS}, and estimation of temperature using optical integral field spectroscopic data suggest shock ionization of the gas. The continuum emission at 237 GHz, though weak, was found to spatially coincide with the AGN. However, the CO(2$-$1) line emission was found to be displaced by around 20 parsec northward of the AGN core. The spatial coincidence of molecular H$_2$$\lambda$2.4085 along the jet direction, the morphology of ionised [OIII]$\lambda$5007 and displacement of the CO(2$-$1) emission argues for conditions less favourable for star formation in the central $\sim$ 10 parsec region., Comment: 20 pages, 18 figures, accepted for the publication of The Astrophysical Journal

Published

2023

8. A giant radio galaxy with three cycles of episodic jet activity from LoTSS DR2

Author

Chavan, Kshitij, Dabhade, Pratik, and Saikia, D. J.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

The excellent sensitivity and optimum resolution of LoTSS DR2 at 144 MHz has enabled us to discover a giant radio galaxy (J1225+4011) with three distinct episodes of jet activity, making it a member of a class of objects called triple-double radio galaxies (TDRGs). The source extends overall up to 1.35 Mpc in projected size, with the second episode extending to 572 kpc, and the inner episode to 118 kpc. J1225+4011 is only the fourth radio source showing a triple-double radio structure. All four sources have overall sizes greater than 700 kpc, making them giants. We also present the LoTSS 144 MHz map of the TDRG J0929+4146 and report its updated size. Lastly, we have summarised and discussed the radio properties of all TDRGs for the first time to understand their growth and evolution. Our observations suggest that the power of their jets may decrease with time., Comment: Accepted for publication in MNRAS Letters. 2 tables and 5 figures. Comments are welcome

Published

2023

9. The 'spectral index-flux density relation' for extragalactic radio sources selected at metre and decametre wavelengths

Author

Dabhade, Pratik and Gopal-Krishna

Subjects

Astrophysics - Astrophysics of Galaxies, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We use the recent releases of sensitive VLA/LOFAR large-area surveys at 340 MHz and 54 MHz, in conjunction with the 1.4 GHz NVSS, to accurately determine the `spectral index - flux density relation' ($\alpha$ - S) for extragalactic radio sources selected at metre and decametre wavelengths, the latter for the first time. This newly determined $\alpha$ - S$_{\rm 340~MHz}$ relation shows a progressive flattening of $\alpha_{\rm median}$ towards lower flux densities, starting from its steepest value (peak)occurring near S$_{\rm 340~MHz}$ $\sim$ 1-2 Jy. This resolves the controversy extant in the literature since the 1980s. The $\alpha$ - S$_{\rm 54~MHz}$ relation, too, shows a spectral index flattening with decreasing flux density which, however, is significantly milder and the relation is less sharply peaked than that found at 340 MHz. A possible reason for the difference could be that the 54 MHz sample has a distinctly stronger/conspicuous presence ( at $\sim$ 20% level) of very steep spectrum sources having $\alpha_{54}^{1400} <$ -1.3, most of which are probably associated with clusters of galaxies., Comment: Accepted for Publication in A&A Letters. 4 Figures and 2 tables. Comments are welcome

Published

2023

10. RAD@home discovery of a one-sided radio jet hitting the companion galaxy

Author

Hota, Ananda, Dabhade, Pratik, and Vaddi, Sravani

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Minkowski's Object and 'Death Star galaxy' are two of the famous cases of rare instances when a radio jet has been observed to directly hit a neighbouring galaxy. RAD12, the RAD@home citizen science discovery with GMRT being presented here, is not only a new system being added to nearly half a dozen rare cases known so far but also the first case where the neighbouring galaxy is not a minor or dwarf companion but a galaxy bigger than the host of the radio jet. Additionally, the jet appears to be one-sided and the jet after interaction completely stops and forms a bubble inflating laterally which is unlike previous cases of minor deviation or loss of collimation. Since the nature of radio jet-ISM coupling is poorly understood so far, more discovery of objects like RAD12 will be important to the understanding of galaxy evolution through merger and AGN feedback., Comment: Accepted for publication in the IAU symposium-375 conference proceeding. Contains 3 figures. Comments and collaborations are most welcome

Published

2023

11. Measuring the giant radio galaxy length distribution with the LoTSS

Author

Oei, Martijn S. S. L., van Weeren, Reinout J., Gast, Aivin R. D. J. G. I. B., Botteon, Andrea, Hardcastle, Martin J., Dabhade, Pratik, Shimwell, Tim W., Röttgering, Huub J. A., and Drabent, Alexander

Subjects

Astrophysics - Astrophysics of Galaxies, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Radio galaxies are luminous structures created by the jets of supermassive black holes, and consist of atomic nuclei, relativistic electrons, and magnetic fields. In exceptional cases, radio galaxies attain cosmological, megaparsec extents - and thus turn into giants. Giants embody the most extreme known mechanism through which galaxies can impact the Cosmic Web around them. The triggers of giant growth remain a mystery. Excitingly, new sensitive low-frequency sky surveys hold promise to change this situation. In this work, we perform a precision measurement of the distribution of giant growth's central dynamical quantity: total length. We first construct a statistical geometric framework for radio galaxies that is both rigorous and practical. We then search the LOFAR Two-metre Sky Survey for giants, discovering 2060 previously unknown specimina: more than have been found in all preceding literature combined. Spectacular discoveries include the longest giant hosted by an elliptical galaxy, the longest giant hosted by a spiral galaxy, and 13 giants with an angular length larger than that of the full Moon. By combining theory and observations - and carefully forward modelling selection effects - we infer that giant radio galaxy lengths are well described by a Pareto distribution with tail index $-3.5 \pm 0.5$. This finding is a new observational constraint for models and simulations of radio galaxy growth. In addition, for the first time, we determine the comoving number density of giants, $5 \pm 2\ (100\ \mathrm{Mpc})^{-3}$, and the volume-filling fraction of giant radio galaxy lobes in clusters and filaments, $5\substack{+8\\-2}\cdot 10^{-6}$. We conclude that giants are truly rare - not only from an observational perspective, but also from a cosmological one. At any moment in time, most clusters and filaments - the building blocks of the modern Cosmic Web - do not harbour giants., Comment: 41 pages, 28 figures, 5 tables, published in Astronomy & Astrophysics

Published

2022

12. RAD@home citizen science discovery of an AGN spewing a large unipolar radio bubble onto its merging companion galaxy

Author

Hota, Ananda, Dabhade, Pratik, Vaddi, Sravani, Konar, Chiranjib, Pal, Sabyasachi, Gulati, Mamta, Stalin, C S., Avinash, Ck, Kumar, Avinash, Rajoria, Megha, and Purohit, Arundhati

Subjects

Astrophysics - Astrophysics of Galaxies, Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - High Energy Astrophysical Phenomena

Abstract

AGN feedback during galaxy merger has been the most favoured model to explain black hole-galaxy co-evolution. However, how the AGN-driven jet/wind/radiation is coupled with the gas of the merging galaxies, which leads to positive feedback, momentarily enhanced star formation, and subsequently negative feedback, a decline in star formation, is poorly understood. Only a few cases are known where the jet and companion galaxy interaction leads to minor off-axis distortions in the jets and enhanced star formation in the gas-rich minor companions. Here, we briefly report one extraordinary case, RAD12, discovered by RAD@home citizen science collaboratory, where for the first time a radio jet-driven bubble ~137 kpc is showing a symmetric reflection after hitting the incoming galaxy which is not a gas-rich minor but a gas-poor early-type galaxy in a major merger. Surprisingly, neither positive feedback nor any radio lobe on the counter jet side, if any, is detected. It is puzzling if RAD12 is a genuine one-sided jet or a case of radio lobe trapped, compressed and re-accelerated by shocks during the merger. This is the first imaging study of RAD12 presenting follow-up with the GMRT, archival MeerKAT radio data and CFHT optical data., Comment: Published in the MNRAS Letters. Contains 5 pages and 2 figures. Comments and Collaborations for follow up of this #RADatHomeIndia #CitizenScience discovery, most welcome

Published

2022

13. Barbell-shaped giant radio galaxy with ~100 kpc kink in the jet

Author

Dabhade, Pratik, Shimwell, Timothy W., Bagchi, Joydeep, Saikia, D. J., Combes, Francoise, Gaikwad, Madhuri, Rottgering, Huub, Mohapatra, Abhisek, Ishwara-Chandra, C. H., Intema, Huib T, and Raychaudhury, Somak

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We present for the first time a study of peculiar giant radio galaxy (GRG) J223301+131502 using deep multi-frequency radio observations from GMRT (323, 612, and 1300 MHz) and LOFAR (144 MHz) along with optical spectroscopic observations with the WHT~4.2m optical telescope. Our observations have firmly established its redshift of 0.09956 and unveiled its exceptional jet structure extending more than $\sim$ 200 kpc leading to a peculiar kink structure of $\sim$ 100 kpc. We measure the overall size of this GRG to be $\sim$ 1.83 Mpc; it exhibits lobes without any prominent hotspots and closely resembles a barbell. Our deep low-frequency radio maps clearly reveal the steep-spectrum diffuse emission from the lobes of the GRG. The magnetic field strength of $\sim$ 5 $\mu$G and spectral ages between about 110 to 200 mega years for the radio lobes were estimated using radio data from LOFAR 144 MHz observations and GMRT 323 and 612 MHz observations. We discuss the possible causes leading to the formation of the observed kink feature for the GRG, which includes precession of the jet axis, development of instabilities and magnetic reconnection. Despite its enormous size, the Barbell GRG is found to be residing in a low-mass (M$_{200} \sim 10^{14}$ $\rm M_{\odot}$) galaxy cluster. This GRG with two-sided large-scale jets with a kink and diffuse outer lobes residing in a cluster environment provides an opportunity to explore the structure and growth of GRGs in different environments., Comment: Accepted for publication in A&A. 17 Pages, 7 figures and 6 tables. Comments are welcome

Published

2022

14. Decoding the giant extragalactic radio sources

Author

Dabhade, Pratik, Saikia, D. J., and Mahato, Mousumi

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Giant radio sources (GRSs) defined to be > 0.7 Mpc are the largest single objects in the Universe and can be associated with both galaxies (GRGs) and quasars (GRQs). They are important for understanding the evolution of radio galaxies and quasars whose sizes range from pc to Mpc scales and are also valuable probes of their environment. These radio-loud active galactic nuclei (RLAGN) interact with the interstellar medium of the host galaxy on small scales and the large-scale intracluster or intergalactic medium for the GRSs. With several new and sensitive surveys over the last few years, the number of known GRSs has increased many fold which has led a resurgence of interest in the field. This review article summarises our current understanding of these sources based on nearly five decades of research and discusses the importance of the Square Kilometer Array (SKA) in addressing some of the outstanding questions., Comment: Accepted for publication in the Journal of Astrophysics and Astronomy for Special Issue on Indian Participation in the SKA. Guest Editors: Abhirup Datta, Nirupam Roy, Preeti Kharb and Tirthankar Roy Choudhury). 31 pages, 8 figures, and 4 tables. Comments are welcome

Published

2022

15. X-shaped radio galaxy 3C 223.1: A 'double boomerang' with an anomalous spectral gradient

Author

Gopal-Krishna and Dabhade, Pratik

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

A comparison of the recent LOFAR 144 MHz map of the radio source 3C 223.1 (J094124.028+394441.95) with the VLA maps at 4.9 GHz and 8.3 GHz that we built based on archival data, establishes this X-shaped radio galaxy (XRG) as a singularly robust case where the 'wings' exhibit a distinctly flatter radio spectrum than the primary lobes. The details of its anomalous spectral gradient are unravelled here with unprecedented precision. We also highlight the 'double boomerang' type radio morphology of this XRG. It appears plausible that the peculiar spectral gradient in this XRG is owed to particle acceleration associated with the rebounding of the collimated backflows of synchrotron plasma streaming through its two primary lobes, as they impinge upon and encounter the magnetic tension in the prominent dusty disk of the elliptical galaxy hosting this XRG. We also draw attention to an intriguing new morphological peculiarity among XRGs, namely, a lateral offset observed between the (parallel) axes of the two primary radio lobes., Comment: Accepted for publication in A&A Letters |3 figures and 2 tables | Comments are welcome

Published

2022

16. Discovery of X-shaped Morphology of the Giant Radio Galaxy GRG 0503-286

Author

Dabhade, Pratik and Gopal-Krishna

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

The high surface-brightness sensitivity of the GLEAM survey image of the giant radio galaxy GRG 0503-28 at 70-230 MHz has revealed an inversion-symmetric bending of its two lobes, while maintaining between their bent portions a ~200 kpc wide strip-like radio emission gap. This lends the source the appearance of a mega-sized X-shaped radio galaxy. Identifying the emission gap with the presence of a gaseous layer, probably a WHIM-filled sheet in the cosmic web, we suggest that the layer is the most likely cause of the inversion-symmetric bending of the two radio lobes. Multiple observational manifestations of such gaseous layers are noted. The two lobes of this GRG, known to extend very asymmetrically from the host galaxy, are remarkably symmetric about the emission gap, confirming a curious trend noted earlier for double radio sources of normal dimensions. The anomalous radio spectral gradient reported for the northern lobe of this GRG is not substantiated., Comment: Accepted for publication in A&A Letters | 5 pages and 3 figures | Comments are welcome | Dedicated to Prof Govind Swarup, FRS

Published

2022

17. The discovery of a radio galaxy of at least 5 Mpc

Author

Oei, Martijn S. S. L., van Weeren, Reinout J., Hardcastle, Martin J., Botteon, Andrea, Shimwell, Tim W., Dabhade, Pratik, Gast, Aivin R. D. J. G. I. B., Röttgering, Huub J. A., Brüggen, Marcus, Tasse, Cyril, Williams, Wendy L., and Shulevski, Aleksandar

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We discover what is in projection the largest known structure of galactic origin: a giant radio galaxy with a projected proper length of $4.99 \pm 0.04\ \mathrm{Mpc}$. The source, named Alcyoneus, was first identified in low-resolution LOFAR Two-metre Sky Survey images from which angularly compact sources had been removed. Being an extreme example in its class, Alcyoneus could shed light on the main mechanisms that drive radio galaxy growth. We find that - beyond geometry - Alcyoneus and its host galaxy appear suspiciously ordinary: the total low-frequency luminosity density, stellar mass and supermassive black hole mass are all lower than, though similar to, those of the medial giant radio galaxy (percentiles $45 \pm 3\%$, $25 \pm 9 \%$ and $23 \pm 11 \%$, respectively). The source resides in a filament of the Cosmic Web, with which it might have significant thermodynamic interaction. At $5 \cdot 10^{-16}\ \mathrm{Pa}$, the pressures in the lobes are the lowest hitherto found, and Alcyoneus therefore represents one of the most promising radio galaxies yet to probe the warm-hot intergalactic medium., Comment: 18 pages, 14 figures, 3 tables, accepted for publication in Astronomy & Astrophysics

Published

2022

18. SAGAN -- III: New insights into giant radio quasars

Author

Mahato, Mousumi, Dabhade, Pratik, Saikia, D. J., Combes, Francoise, Bagchi, Joydeep, Ho, Luis C., and Raychaudhury, Somak

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Giant radio quasars (GRQs) are radio-loud active galactic nuclei (AGNs), propelling megaparsec-scale jets. In order to understand GRQs and their properties, we have compiled all known GRQs ("the GRQ catalogue"), and a subset of small (size <700 kpc) radio quasars (SRQs) from the literature. In this process, we have found 10 new FR-II GRQs, in the redshift range of 0.66 < z < 1.72, which we include in the GRQ catalogue. Using the above samples, we have carried out a systematic comparative study of GRQs and SRQs, using optical and radio data. Our results show that the GRQs and SRQs statistically have similar spectral index and black hole mass distributions. However, SRQs have higher radio core power, core dominance factor, total radio power, jet kinetic power and Eddington ratio compared to GRQs. On the other hand, when compared to giant radio galaxies (GRGs), GRQs have higher black hole mass and Eddington ratio. The high core dominance factor of SRQs is an indicator of them lying closer to the line of sight than GRQs. We also find a correlation of the accretion disc luminosity with the radio core and jet power of GRQs, which provides evidence for disc-jet coupling. Lastly, we find the distributions of Eddington ratios of GRGs and GRQs to be bi-modal, similar to that found in small radio galaxies (SRGs) and SRQs, which indicate that size is not strongly dependent on the accretion state. Using all of these, we provide a basic model for the growth of SRQs to GRQs., Comment: Accepted for publication in Astronomy & Astrophysics. 9 figures, and 2 tables. This is the third paper in the series. Comments are welcome. "SAGAN Project website this http https://sites.google.com/site/anantasakyatta/sagan"

Published

2021

19. GMRT unveils steep-spectrum antique filaments in the galaxy cluster Abell 725

Author

Pandge, M. B., Kale, Ruta, Dabhade, Pratik, Mahato, Mousumi, and Raychaudhury, Somak

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We present original GMRT radio observations of the galaxy cluster Abell~725, at a redshift of 0.09, along with other archival observations. Our GMRT maps reveal two steep-spectrum diffuse filaments in the cluster, along with a previously reported arc-like structure, and a wide-angle tail (WAT) radio source associated with the Brightest Cluster Galaxy (BCG) at the periphery of the cluster. The bent morphology of the WAT indicates that its jets have been swept back by the dynamic pressure resulting from the motion of the BCG through the surrounding intracluster medium. The BCG associated with the WAT hosts a black hole whose mass we estimate to be 1.4$\pm0.4 \times10^{9} \Msun$. We observe a 2\arcmin (195\,kpc in projection) offset between the BCG and the X-ray centroid of the galaxy cluster, which, along with other dynamic features, indicates the cluster's early stage of evolution. The WAT radio galaxy, the arc and the filaments have spectral indices $\alpha_{612}^{240}= -0.46\pm 0.15$, $-0.8\pm0.3$, and ($-1.13\pm 0.48$, $-1.40\pm 0.50$), respectively. The WAT and the arc are connected structures, while the filaments are detached from them, but are found to be along the trail of the WAT. Based on the morphology of the components, and the progressive steepening of the components from the core of the WAT to the filaments, we propose that this system is a radio galaxy with trailing antique filaments., Comment: 12 Pages, 7 Figures, 1 Appendix, 5 Tables, Accepted for publication in MNRAS

Published

2021

20. uGMRT detection of cluster radio emission in low-mass Planck~SZ clusters

Author

Paul*, Surajit, Gupta, Prateek, Salunkhe, Sameer, Bhagat, Shubham, Sonkamble, Satish, Hiray, Manish, Dabhade, Pratik, and Raychaudhury, Somak

Subjects

Astrophysics - Astrophysics of Galaxies, Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - High Energy Astrophysical Phenomena

Abstract

Low-mass ($M_{\rm{500}}<5\times10^{14}{\rm{M_\odot}}$) galaxy clusters have been largely unexplored in radio observations, due to the inadequate sensitivity of existing telescopes. However, the upgraded GMRT (uGMRT) and the Low Frequency ARray (LoFAR), with unprecedented sensitivity at low frequencies, have paved the way to closely study less massive clusters than before. We have started the first large-scale programme to systematically search for diffuse radio emission from low-mass galaxy clusters, chosen from the Planck Sunyaev-Zel'dovich cluster catalogue. We report here the detection of diffuse radio emission from four of the 12 objects in our sample, shortlisted from the inspection of the LoFAR Two Meter Sky Survey (LoTSS-I), followed up by uGMRT Band 3 deep observations. The clusters PSZ2~G089 (Abell~1904) and PSZ2~G111 (Abell~1697) are detected with relic-like emission, while PSZ2~G106 is found to have an intermediate radio halo and PSZ2~G080 (Abell~2018) seems to be a halo-relic system. PSZ2~G089 and PSZ2~G080 are among the lowest-mass clusters discovered with a radio relic and a halo-relic system, respectively. A high ($\sim30\%$) detection rate, with powerful radio emission ($P_{1.4\ {\rm GHz}}\sim10^{23}~{\rm{W~Hz^{-1}}}$) found in most of these objects, opens up prospects of studying radio emission in galaxy clusters over a wider mass range, to much lower-mass systems., Comment: 9 pages, 7 figures, accepted for publication in MNRAS

Published

2021

21. SAGAN-II : Molecular gas content of giant radio galaxies

Author

Dabhade, Pratik, Combes, Francoise, Salome, Philippe, Bagchi, Joydeep, and Mahato, Mousumi

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Radio galaxies with jets of relativistic particles are usually hosted by massive elliptical galaxies with active nuclei powered by accretion of interstellar matter onto a supermassive black hole. In some rare cases (<5%), their jets drive the overall structure to sizes larger than 700 kpc, and they are called giant radio galaxies (GRGs). A very small fraction of the population of such radio galaxies contains molecular and atomic gas in the form of rings or discs that can fuel star formation. The origin of this gas is not well known; it has sometimes been associated with a minor merger with a gas-rich disc galaxy (e.g. Centaurus A) or cooling of material from a hot X-ray atmosphere (e.g. cooling flows). The giant radio jets might be the extreme evolution of these objects, and they can teach us about the radio galaxy evolution. We selected 12 targets from a catalogue of 820 GRGs that are likely to be in a gas-accretion and star formation phase. The targets were selected from the mid-infrared to contain heated dust. We report here the results of IRAM-30m observations, the molecular gas content, and the star formation efficiency, and we discuss the origin of the gas and disc morphology. Three out of our 12 targets are detected, and for the others, we report significant upper limits. We combine our three detections and upper limits with four additional detected GRGs from the literature to discuss the results. Most of the GRG targets belong to the main sequence, and a large fraction are in the passive domain. Their star formation efficiency is comparable to normal galaxies, except for two galaxies that are deficient in molecular gas with a short (~200Myr) depletion time, and a quiescent gas-rich giant spiral galaxy. In general, the depletion time is much longer than the lifetime of the giant radio jet., Comment: Accepted for publication in A&A journal on 16 September 2020. 13 pages, 9 figures, and 5 tables. This is the second paper under project SAGAN https://sites.google.com/site/anantasakyatta/sagan . Comments are welcome

Published

2020

22. Search and analysis of giant radio galaxies with associated nuclei (SAGAN) -- I : New sample and multi-wavelength studies

Author

Dabhade, Pratik, Mahato, Mousumi, Bagchi, Joydeep, Saikia, D. J., Combes, Francoise, Sankhyayan, Shishir, Röttgering, H. J. A., Ho, L. C., Gaikwad, Madhuri, Raychaudhury, Somak, Vaidya, Bhargav, and Guiderdoni, Bruno

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We present the first results of a project called SAGAN, which is dedicated solely to the studies of relatively rare megaparsec-scale radio galaxies in the Universe, called giant radio galaxies (GRGs). We have identified 162 new GRGs primarily from the NVSS with sizes ranging from ~0.71 Mpc to 2.82 Mpc in the redshift range of ~0.03 - 0.95, of which 23 are hosted by quasars (giant radio quasars, GRQs). As part of the project SAGAN, we have created a database of all known GRGs, the GRG catalogue, from the literature (including our new sample); it includes 820 sources. For the first time, we present the multi-wavelength properties of the largest sample of GRGs. Our results establish that the distributions of the radio spectral index and the black hole mass of GRGs do not differ from the corresponding distributions of normal-sized radio galaxies (RGs). However, GRGs have a lower Eddington ratio (ER) than RGs. Using the mid-infrared data, we classified GRGs in terms of their accretion mode: either a high-power radiatively efficient high-excitation state, or a radiatively inefficient low-excitation state. We find that GRGs in high-excitation state statistically have larger sizes, stronger radio power, jet kinetic power, and higher ER than those in low-excitation state. Our analysis reveals a strong correlation between the ER and the scaled jet kinetic power, which suggests a disc-jet coupling. Our environmental study reveals that ~10% of all GRGs may reside at the centres of galaxy clusters, in a denser galactic environment, while the majority appears to reside in a sparse environment. We find that the probability of BCG as a GRG is quite low. We present new results for GRGs that range from black hole mass to large-scale environment properties. We discuss their formation and growth scenarios, highlighting the key physical factors that cause them to reach their gigantic size. Abridged., Comment: Accepted for publication in Astronomy & Astrophysics. 14 figures, 7 tables and 7 montages. Comments are welcome. "SAGAN Project website https://sites.google.com/site/anantasakyatta/sagan"

Published

2020

23. GMRT observations of a first sample of Extremely Inverted Spectrum Extragalactic Radio Sources (EISERS) candidates in the Northern sky

Author

Mhaskey, Mukul, Gopal-Krishna, Paul, Surajit, Dabhade, Pratik, Salunkhe, Sameer, Bhagat, Shubham, and Bendre, Abhijit

Subjects

Astrophysics - Astrophysics of Galaxies, Astrophysics - High Energy Astrophysical Phenomena

Abstract

We present an extension of our search for Extremely Inverted Spectrum Extragalactic Radio Sources (EISERS) to the northern celestial hemisphere. With an inverted radio spectrum of slope $\alpha$ > +2.5, these rare sources would either require a non-standard particle acceleration mechanism (in the framework of synchrotron self-absorption hypothesis), or a severe free-free absorption which attenuates practically all of their synchrotron radiation at metre wavelengths. By applying a sequence of selection filters, a list of 15 EISERS candidates is extracted out by comparing two large-sky radio surveys, WENSS (325 MHz) and TGSS-ADR1 (150 MHz), which overlap across 1.03$\pi$ steradian of the sky. Here we report quasi-simultaneous GMRT observations of these 15 EISERS candidates at 150 MHz and 325 MHz, in an attempt to accurately define their spectra below the turnover frequency. Out of the 15 candidates observed, two are confirmed as EISERS, since the slope of the inverted spectrum between these two frequencies is found to be significantly larger than the critical value $\alpha_c$ = +2.5: the theoretical limit for the standard case of synchrotron self-absorption (SSA). For another 3 sources, the spectral slope is close to, or just above the critical value $\alpha_c$. Nine of the sources have GPS type radio spectra. The parsec-scale radio structural information available for the sample is also summarised., Comment: Accepted for publication in MNRAS. Comments are welcome

Published

2019

24. GMRT observations of extragalactic radio sources with steeply inverted spectra

Author

Mhaskey, Mukul, Gopal-Krishna, Dabhade, Pratik, Paul, Surajit, Salunkhe, Sameer, and Sirothia, S. K.

Subjects

Astrophysics - Astrophysics of Galaxies, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We report quasi-simultaneous GMRT observations of seven extragalactic radio sources at 150, 325, 610 and 1400 MHz, in an attempt to accurately define their radio continuum spectra, particularly at frequencies below the observed spectral turnover. We had previously identified these sources as candidates for a sharply inverted integrated radio spectrum whose slope is close to, or even exceeds $\alpha_c$ = +2.5, the theoretical limit due to synchrotron self-absorption (SSA) in a source of incoherent synchrotron radiation arising from relativistic particles with the canonical (i.e., power-law) energy distribution. We find that four out of the seven candidates have an inverted radio spectrum with a slope close to or exceeding +2.0, while the critical spectral slope $\alpha_c$ is exceeded in at least one case. These sources, together with another one or two reported in very recent literature, may well be the archetypes of an extremely rare class, from the standpoint of violation of the SSA limit in compact extragalactic radio sources. However, the alternative possibility that free-free absorption is responsible for their ultra-sharp spectral turnover cannot yet be discounted., Comment: Accepted for publication in MNRAS. Comments are welcome

Published

2019

25. Decoding the giant extragalactic radio sources

Author

Dabhade, Pratik, Saikia, D. J., and Mahato, Mousumi

Published

2023

26. AGN Feedback in galaxy groups: a detailed study of X-ray features and diffuse radio emission in IC1262

Author

Pandge, M. B., Sonkamble, S. S., Parekh, Viral, Dabhade, Pratik, Parmar, Avni, Patil, M. K., and Raychaudhury, Somak

Subjects

Astrophysics - Astrophysics of Galaxies, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

This paper reports a systematic search of X-ray cavities, density jumps and shocks in the inter-galactic environment of the galaxy group IC~1262 using {\it Chandra}, GMRT and VLA archival observations. The X-ray imaging analysis reveals a pair of X-ray cavities on the north and south of the X-ray peak, at projected distances of 6.48\,kpc and 6.30\,kpc respectively. Total mechanical power contained in both these cavities is found to be $\sim$12.37$\times 10^{42}$ erg~s$^{-1}$, and compares well with the X-ray luminosity, within the cooling radius, measured to be $\sim 3.29 \times 10^{42}$ erg~s$^{-1}$, suggesting that the mechanical power injected by the central AGN efficiently balances the radiative loss. We detect a previously unknown X-ray cavity at the position of southern radio lobe in the intra-group medium and find a loop of excess X-ray emission extending $\sim$100 kpc southwest from the central galaxy. The X-ray cavity at the position of southern radio lobe probably represents a first generation X-ray cavity. Two surface brightness edges are evident to the west and east$-$north of the center of this group. The radio galaxy at the core of the IC~1262 group is a rare low-redshift ultra-steep radio galaxy, its spectral index being $\alpha\! \sim\! -1.73$ (including the central AGN) and $\alpha\! \sim\! -2.08$ (excluding the central AGN). We detect a radio phoenix embedded within the southern radio lobe, for the first time in a poor group, with a spectral index ($\alpha \!\leq\! -1.92$). The spectral index distribution across the phoenix steepens with increasing distance from its intensity peak., Comment: 18 Pages, 12 Figures, Accepted for publication in APJ

Published

2018

27. Saraswati: An Extremely Massive ~ 200 Megaparsec Scale Supercluster

Author

Bagchi, Joydeep, Sankhyayan, Shishir, Sarkar, Prakash, Raychaudhury, Somak, Jacob, Joe, and Dabhade, Pratik

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Here we report the discovery of an extremely massive and large supercluster (called Saraswati) found in the Stripe 82 region of SDSS. This supercluster is a major concentration of galaxies and galaxy clusters, forming a wall-like structure spanning at least 200 Mpc across at the redshift $z \approx 0.3$. This enormous structure is surrounded by a network of galaxy filaments, clusters, and large, $\sim40 - 170$ Mpc diameter, voids. The mean density contrast $\delta$ (relative to the background matter density of the universe) of Saraswati is $\gtrsim 1.62$ and the main body of the supercluster comprises at least 43 massive galaxy clusters (mean $z = 0.28$) with a total mass of $\sim 2 \times 10^{16} M_{\odot}$. The spherical collapse model suggests that the central region of radius $\sim20$ Mpc and mass at least $ 4 \times 10^{15} M_{\odot}$ may be collapsing. This places it among the few largest and most massive superclusters known, comparable to the most massive `Shapley Concentration' ($z \approx 0.046$) in the nearby universe. The Saraswati supercluster and its environs reveal that some extreme large-scale, prominent matter density enhancements had formed $\sim4$ Gy in the past when dark energy had just started to dominate structure formation. This galactic concentration sheds light on the role of dark energy and cosmological initial conditions in supercluster formation, and tests the competing cosmological models., Comment: 19 pages, 15 figures, and 1 table. Accepted for publication and press release in ApJ

Published

2017

28. Discovery of Giant Radio Galaxies from NVSS: Radio & Infrared Properties

Author

Dabhade, Pratik, Gaikwad, Madhuri, Bagchi, Joydeep, Pandey-Pommier, M., Sankhyayan, Shishir, and Raychaudhury, Somak

Subjects

Astrophysics - Astrophysics of Galaxies, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Giant radio galaxies (GRGs) are one of the largest astrophysical sources in the Universe with an overall projected linear size of ~0.7 Mpc or more. Last six decades of radio astronomy research has led to the detection of thousands of radio galaxies. But only ~ 300 of them can be classified as GRGs. The reasons behind their large size and rarity are unknown. We carried out a systematic search for these radio giants and found a large sample of GRGs. In this paper, we report the discovery of 25 GRGs from NVSS, in the redshift range (z) ~ 0.07 to 0.67. Their physical sizes range from ~0.8 Mpc to ~4 Mpc. Eight of these GRGs have sizes greater than 2Mpc which is a rarity. In this paper, for the first time, we investigate the mid-IR properties of the optical hosts of the GRGs and classify them securely into various AGN types using the WISE mid-IR colours. Using radio and IR data, four of the hosts of GRGs were observed to be radio loud quasars that extend up to 2 Mpc in radio size. These GRGs missed detection in earlier searches possibly because of their highly diffuse nature, low surface brightness and lack of optical data. The new GRGs are a significant addition to the existing sample that will contribute to better understanding of the physical properties of radio giants., Comment: 24 pages, 34 figures. Published in MNRAS. Comments are welcome

Published

2017

29. MACS J0553.4-3342: A young merging galaxy cluster caught through the eyes of Chandra and HST

Author

Pandge, M. B., Bagchi, Joydeep, Sonkamble, S. S., Parekh, Viral, Patil, M. K., Dabhade, Pratik, Navale, Nilam R, Raychaudhury, Somak, and Joe, Jacob

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

We present a detailed analysis of a young merging galaxy cluster \mac~(z=0.43), from {\it Chandra} X-ray and {\it Hubble Space Telescope} archival data. X-ray observations confirm that the X-ray emitting intra-cluster medium (ICM) in this system is among the hottest (average $T=12.1 \pm 0.6$ keV) and most luminous known. Comparison of X-ray and optical images confirm that this system hosts two merging subclusters SC1 and SC2, separated by a projected distance of about 650\,kpc. The subcluster SC2 is newly identified in this work, while another subcluster (SC0), previously thought to be part of this merging system, is shown to be possibly a foreground object. Apart from two subclusters, we find a tail-like structure in the X-ray image, extending to a projected distance of $\sim$1\,Mpc, along the north-east direction of the eastern subcluster (SC1). From a surface brightness analysis, we detect two sharp surface brightness edges at $\sim$40$\arcsec$ ($\sim$320\,kpc) and $\sim$80$\arcsec$ ($\sim$640\,kpc) to the east of SC1. The inner edge appears to be associated with a merger-driven cold front, while the outer one is likely to be due to a shock front, the presence of which, ahead of the cold front, makes this dynamically disturbed cluster interesting. Nearly all the early-type galaxies belonging to the two subclusters, including their BCGs, are part of a well-defined red sequence., Comment: 13 pages, 12 figures, 6 Tables, Accepted for publication in Monthly Notices of the Royal Astronomical Society Main Journal

Published

2016

30. Tracking galaxy evolution through low frequency radio continuum observations using SKA and Citizen-science Research using Multi-wavelength data

Author

Hota, Ananda, Konar, Chiranjib, Stalin, C. S., Vaddi, Sravani, Mohanty, Pradeepta K., Dabhade, Pratik, Bhoga, Sai Arun Dharmik, Rajoria, Megha, and Sethi, Sagar

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We present a review on galaxy black hole co-evolution through merger, star formation and AGN-jet feedback. We highlight results on transitional galaxies (e.g. NGC1482, NGC6764, NGC3801, Speca, RAD-18 etc.) which has data from Giant Meterwave Radio Telescope (GMRT) and other sub-mm, IR, optical, UV and X-ray telescopes. The `smoking gun' relic-evidences of past AGN-jet feedback which is believed to have quenched star formation in transitional galaxies are still missing. Relic radio lobes, as old as a few hundred Myr, can be best detected at low radio frequencies with the GMRT, LOFAR and in future SKA. However, similar relic evidences of quasar activities, known as `Hanny's Voorwerp' discovered by Galaxy Zoo in optical data, are only around a few tens of thousand years old. More discoveries are needed to match these time-scales with time since the decline of star formation in transitional galaxies. Such faint fuzzy relic emissions in optical and angular-scale sensitive radio interferometric images can be discovered most efficiently by citizen-scientists but with a formal training. We describe RAD@home, the only Indian citizen-science research project in astronomy which takes such a modified approach. We present interesting objects, discovered from the TIFR GMRT Sky Survey (TGSS) by 69 trained citizen-scientists or e-astronomers, like relic radio lobes, episodic radio galaxies, jet-galaxy interaction, bent radio galaxy in filament etc.. This model can provide an equal opportunity of academic-growth to people even in the under-developed regions where we always need to establish our optical and radio telescopes. This can expand the research-activity of city-based research-institutes beyond their four brick walls, and alleviate various socio-economic and geo-political constraints on growth of citizens located in remote areas. #RADatHomeIndia #ABCDresearch, Comment: To appear in Journal of Astrophysics and Astronomy (JOAA) special issue on "Science with the SKA: an Indian perspective". Currently under review. Please help RAD@home and like our Facebook page https://www.facebook.com/RADatHomeIndia/ Compact pdf version of the paper for colour-printing can be found at https://drive.google.com/file/d/0B6Ya4Y3GPJSZZHNNTkVwdVVYSW8/view?usp=sharing

Published

2016

31. `Zwicky's Nonet': a compact merging ensemble of nine galaxies and 4C 35.06, a peculiar radio galaxy with dancing radio jets

Author

Biju, K. G., Bagchi, Joydeep, H., Ishwara-Chandra C., Pandey-Pommier, M., Jacob, Joe, Patil, M. K., P., Sunil Kumar, Pandge, Mahadev, Dabhade, Pratik, Gaikwad, Madhuri, Abraham, Sheelu, Vivek, M., Mahabal, Ashish A., and Djorgovski, S. G.

Subjects

Astrophysics - Astrophysics of Galaxies, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We report the results of our radio, optical and infra-red studies of a peculiar radio source 4C~35.06, an extended radio-loud AGN at the center of galaxy cluster Abell 407 ($z=0.047$). The central region of this cluster hosts a remarkably tight ensemble of nine galaxies, the spectra of which resemble those of passive red ellipticals, embedded within a diffuse stellar halo of $\sim$1~arcmin size. This system (named the `Zwicky's Nonet') provides unique and compelling evidence for a multiple-nucleus cD galaxy precursor. Multifrequency radio observations of 4C~35.06 with the Giant Meterwave Radio Telescope (GMRT) at 610, 235 and 150 MHz reveal a system of 400~kpc scale helically twisted and kinked radio jets and outer diffuse lobes. The outer extremities of jets contain extremely steep spectrum (spectral index -1.7 to -2.5) relic/fossil radio plasma with a spectral age of a few$\,\times (10^7 - 10^8)$ yr. Such ultra-steep spectrum relic radio lobes without definitive hot-spots are rare, and they provide an opportunity to understand the life-cycle of relativistic jets and physics of black hole mergers in dense environments. We interpret our observations of this radio source in the context of the growth of its central black hole, triggering of its AGN activity and jet precession, all possibly caused by galaxy mergers in this dense galactic system. A slow conical precession of the jet axis due to gravitational perturbation between interacting black holes is invoked to explain the unusual jet morphology., Comment: Published in MNRAS | No. of pages 12, 10 figures and 4 tables. Comments are welcome

Published

2016

32. Evidence for Low-power Radio Jet–ISM Interaction at 10 pc in the Dwarf AGN Host NGC 4395

Author

Nandi, Payel, primary, Stalin, C. S., additional, Saikia, D. J., additional, Riffel, Rogemar A., additional, Manna, Arijit, additional, Pal, Sabyasachi, additional, Dors, O. L., additional, Wylezalek, Dominika, additional, Paliya, Vaidehi S., additional, Saikia, Payaswini, additional, Dabhade, Pratik, additional, Patig, Markus-Kissler, additional, and Sagar, Ram, additional

Published

2023

33. New results on the exotic galaxy `Speca' and discovering many more Specas with RAD@home network

Author

Hota, Ananda, Croston, Judith H., Ohyama, Youichi, Stalin, C. S., Hardcastle, Martin J., Konar, Chiranjib, Aravind, R. P., Agarwal, Sheena M., Bhoga, Sai Arun Dharmik, Dabhade, Pratik A., Kamble, Amit A., Mohanty, Pradeepta K., Mukherjee, Alok, Pandey, Akansha V., Patra, Alakananda, Pechetti, Renuka, Raut, Shrishail S., Sushma, V., Vaddi, Sravani, and Verma, Nishchhal

Subjects

Astrophysics - Galaxy Astrophysics, Astrophysics - Cosmology and Extragalactic Astrophysics

Abstract

We present the first report on an innovative new project named "RAD@home", a citizen-science research collaboratory built on free web-services like Facebook, Google, Skype, NASA Skyview, NED, TGSS etc.. This is the first of its kind in India, a zero-funded, zero-infrastructure, human-resource network to educate and directly involve in research, hundreds of science-educated under-graduate population of India, irrespective of their official employment and home-location with in the country. Professional international collaborators are involved in follow up observation and publication of the objects discovered by the collaboratory. We present here ten newly found candidate episodic radio galaxies, already proposed to GMRT, and ten more interesting cases which includes, bent-lobe radio galaxies located in new Mpc-scale filaments, likely tracing cosmological cluster accretion from the cosmic web. Two new Speca-like rare spiral-host large radio galaxies have also been been reported here. Early analyses from our follow up observations with the Subaru and XMM-Newton telescopes have revealed that Speca is likely a new entry to the cluster and is a fast rotating, extremely massive, star forming disk galaxy. Speca-like massive galaxies with giant radio lobes, are possibly remnants of luminous quasars in the early Universe or of first supermassive black holes with in first masssve galaxies. As discoveries of Speca-like galaxies did not require new data from big telescopes, but free archival radio-optical data, these early results demonstrate the discovery potential of RAD@home and how it can help resource-rich professionals, as well as demonstrate a model of academic-growth for resource-poor people in the underdeveloped regions via Internet., Comment: 4 pages, 1 figure. Submitted to ASI Conference Series on "The Metrewavelength Sky". We welcome comments, advise and any form of help to this innovative socio-astronomical experiment, RAD@home

Published

2014

34. Identification of Superclusters and Their Properties in the Sloan Digital Sky Survey Using the WHL Cluster Catalog

Author

Sankhyayan, Shishir, primary, Bagchi, Joydeep, additional, Tempel, Elmo, additional, More, Surhud, additional, Einasto, Maret, additional, Dabhade, Pratik, additional, Raychaudhury, Somak, additional, Athreya, Ramana, additional, and Heinämäki, Pekka, additional

Published

2023

35. A giant radio galaxy with three cycles of episodic jet activity from LoTSS DR2

Author

Chavan, Kshitij, primary, Dabhade, Pratik, additional, and Saikia, D J, additional

Published

2023

36. Measuring the giant radio galaxy length distribution with the LoTSS

Author

Oei, Martijn S. S. L., primary, van Weeren, Reinout J., additional, Gast, Aivin R. D. J. G. I. B., additional, Botteon, Andrea, additional, Hardcastle, Martin J., additional, Dabhade, Pratik, additional, Shimwell, Tim W., additional, Röttgering, Huub J. A., additional, and Drabent, Alexander, additional

Published

2023

37. RAD@home citizen science discovery of an active galactic nucleus spewing a large unipolar radio bubble on to its merging companion galaxy

Author

Hota, Ananda, primary, Dabhade, Pratik, additional, Vaddi, Sravani, additional, Konar, Chiranjib, additional, Pal, Sabyasachi, additional, Gulati, Mamta, additional, Stalin, C S, additional, Avinash, Ck, additional, Kumar, Avinash, additional, Rajoria, Megha, additional, and Purohit, Arundhati, additional

Published

2022

38. Search and analysis of giant radio galaxies with associated nuclei (SAGAN)

Author

Mahato, Mousumi, primary, Dabhade, Pratik, additional, Saikia, D. J., additional, Combes, Françoise, additional, Bagchi, Joydeep, additional, Ho, L. C., additional, and Raychaudhury, Somak, additional

Published

2022

39. Discovery of X-shaped morphology of the giant radio galaxy 0503-286

Author

Dabhade, Pratik, primary and Krishna, Gopal, additional

Published

2022

40. The discovery of a radio galaxy of at least 5 Mpc

Author

Oei, Martijn S. S. L., primary, van Weeren, Reinout J., additional, Hardcastle, Martin J., additional, Botteon, Andrea, additional, Shimwell, Tim W., additional, Dabhade, Pratik, additional, Gast, Aivin R. D. J. G. I. B., additional, Röttgering, Huub J. A., additional, Brüggen, Marcus, additional, Tasse, Cyril, additional, Williams, Wendy L., additional, and Shulevski, Aleksandar, additional

Published

2022

41. RAD@home discovery of a one-sided radio jet hitting the companion galaxy.

Author

Hota, Ananda, Dabhade, Pratik, and Vaddi, Sravani

Subjects

*RADIO jets (Astrophysics), *ASTRONOMICAL observations, *GALAXIES, *CITIZEN science, *GALACTIC evolution

Abstract

Minkowski's Object and 'Death Star galaxy' are two of the famous cases of rare instances when a radio jet has been observed to directly hit a neighbouring galaxy. RAD12, the RAD@home citizen science discovery with GMRT being presented here, is not only a new system being added to nearly half a dozen rare cases known so far but also the first case where the neighbouring galaxy is not a minor/dwarf companion but a galaxy bigger than the host of the radio jet. Additionally, the jet appears to be one-sided and the jet after interaction completely stops and forms a bubble inflating laterally which is unlike previous cases of minor deviation or loss of collimation. Since the nature of radio jet-ISM coupling is poorly understood so far, more discovery of objects like RAD12 will be important to the understanding of galaxy evolution through merger and AGN feedback. [ABSTRACT FROM AUTHOR]

Published

2022

42. uGMRT detection of cluster radio emission in low-mass Planck~SZ clusters

Author

Paul, Surajit, Gupta, Prateek, Salunkhe, Sameer, Bhagat, Shubham, Sonkamble, Satish, Hiray, Manish, Dabhade, Pratik, Raychaudhury, Somak, Laboratoire d'Etude du Rayonnement et de la Matière en Astrophysique (LERMA (UMR_8112)), Institut national des sciences de l'Univers (INSU - CNRS)-Observatoire de Paris, and Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)-CY Cergy Paris Université (CY)

Subjects

High Energy Astrophysical Phenomena (astro-ph.HE), [PHYS]Physics [physics], Cosmology and Nongalactic Astrophysics (astro-ph.CO), galaxies: clusters: general, Astrophysics of Galaxies (astro-ph.GA), X-rays: galaxies: clusters, radio continuum: general, FOS: Physical sciences, large-scale structure of Universe, [PHYS.ASTR]Physics [physics]/Astrophysics [astro-ph], Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Astrophysics of Galaxies, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Low-mass ($M_{\rm{500}}, 9 pages, 7 figures, accepted for publication in MNRAS

Published

2021

43. Giant Metrewave Radio Telescope unveils steep-spectrum antique filaments in the galaxy cluster Abell 725

Author

Pandge, M B, primary, Kale, Ruta, additional, Dabhade, Pratik, additional, Mahato, Mousumi, additional, and Raychaudhury, Somak, additional

Published

2021

44. uGMRT detection of cluster radio emission in low-mass Planck Sunyaev–Zel’dovich clusters

Author

Paul, Surajit, primary, Gupta, Prateek, additional, Salunkhe, Sameer, additional, Bhagat, Shubham, additional, Sonkamble, Satish, additional, Hiray, Manish, additional, Dabhade, Pratik, additional, and Raychaudhury, Somak, additional

Published

2021

45. Giant Metrewave Radio Telescope unveils steep-spectrum antique filaments in the galaxy cluster Abell 725.

Author

Pandge, M B, Kale, Ruta, Dabhade, Pratik, Mahato, Mousumi, and Raychaudhury, Somak

Subjects

RADIO telescopes, GALAXY clusters, FIBERS, RADIO galaxies, DYNAMIC pressure, ANTIQUES

Abstract

We present original Giant Metrewave Radio Telescope (GMRT) radio observations of the galaxy cluster Abell 725, at a redshift (z) of 0.09, along with other archival observations. Our GMRT maps reveal two steep-spectrum diffuse filaments in the cluster, along with a previously reported arc-like structure, and a wide-angle-tail (WAT) radio source associated with the brightest cluster galaxy (BCG) at the periphery of the cluster. The bent morphology of the WAT indicates that its jets have been swept back by the dynamic pressure resulting from the motion of the BCG through the surrounding intracluster medium. The BCG associated with the WAT hosts a black hole whose mass we estimate to be 1.4  |$\ \pm\ 0.4 \times 10^{9}\,\rm M_{\odot }$|⁠. We observe a 2 arcmin (195 kpc in projection) offset between the BCG and the X-ray centroid of the galaxy cluster, which, along with other dynamic features, indicates the cluster's early stage of evolution. The WAT radio galaxy, the arc, and the filaments have spectral indices |$\alpha _{612}^{240}= -0.46\ \pm\ 0.15$|⁠ , −0.8 ± 0.3, and (−1.13 ± 0.48, −1.40 ± 0.50), respectively. The WAT and the arc are connected structures, while the filaments are detached from them, but are found to be along the trail of the WAT. Based on the morphology of the components, and the progressive steepening of the components from the core of the WAT to the filaments, we propose that this system is a radio galaxy with trailing antique filaments. [ABSTRACT FROM AUTHOR]

Published

2022

46. GMRT observations of a first sample of ‘Extremely Inverted Spectrum Extragalactic Radio Sources (EISERS)’ candidates in the Northern sky

Author

Mhaskey, Mukul, primary, Krishna, Gopal-, additional, Paul, Surajit, additional, Dabhade, Pratik, additional, Salunkhe, Sameer, additional, Bhagat, Shubham, additional, and Bendre, Abhijit, additional

Published

2019

47. AGN Feedback in Galaxy Groups: A Detailed Study of X-Ray Features and Diffuse Radio Emission in IC 1262

Author

Pandge, M. B., primary, Sonkamble, S. S., additional, Parekh, Viral, additional, Dabhade, Pratik, additional, Parmar, Avni, additional, Patil, M. K., additional, and Raychaudhury, Somak, additional

Published

2019

48. MACS J0553.4−3342: a young merging galaxy cluster caught through the eyes of Chandra and HST

Author

Pandge, M. B., primary, Bagchi, Joydeep, additional, Sonkamble, S. S., additional, Parekh, Viral, additional, Patil, M. K., additional, Dabhade, Pratik, additional, Navale, Nilam R., additional, Raychaudhury, Somak, additional, and Jacob, Joe, additional

Published

2017

49. ‘Zwicky's Nonet’: a compact merging ensemble of nine galaxies and 4C 35.06, a peculiar radio galaxy with dancing radio jets

Author

Biju, K. G., primary, Bagchi, Joydeep, additional, Ishwara-Chandra, C. H., additional, Pandey-Pommier, M., additional, Jacob, Joe, additional, Patil, M. K., additional, Kumar, P. Sunil, additional, Pandge, Mahadev, additional, Dabhade, Pratik, additional, Gaikwad, Madhuri, additional, Dhurde, Samir, additional, Abraham, Sheelu, additional, Vivek, M., additional, Mahabal, Ashish A., additional, and Djorgovski, S. G., additional

Published

2017

50. Saraswati: An Extremely Massive ∼200 Megaparsec Scale Supercluster

Author

Bagchi, Joydeep, primary, Sankhyayan, Shishir, additional, Sarkar, Prakash, additional, Raychaudhury, Somak, additional, Jacob, Joe, additional, and Dabhade, Pratik, additional

Published

2017