The Peculiar Radio-Loud Narrow Line Seyfert 1 Galaxy 1h 0323+342

Paliya, Vaidehi S.; Sahayanathan, S.; Parker, M. L.; Fabian, A. C.; Stalin, C. S.; Anjum, Ayesha; Pandey, S. B.

doi:10.1088/0004-637x/789/2/143

Cited by 73 publications

(177 citation statements)

References 78 publications

(75 reference statements)

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“…The primary reason for this contrast is the fact that 1H 0323+342 was in quiescence for most of the first four years of Fermi operation and could not produce enough photon statistics to study short timescale variability. These findings are similar to what was recently reported by Paliya et al (2014). The highest flux in the sixhour binned light curve is measured as (7.80 ± 1.43) × 10 −6 --ph cm s 2 1…”

Section: Short-term Flux Variability and Jet Energeticssupporting

confidence: 91%

“…A maximum γ-ray flux of (5.11 ± 0.62) × 10 −7 --ph cm s 2 1 is observed in the bin centered at MJD 56,537 when a GeV flare was detected by Fermi-LAT (Carpenter & Ojha 2013;Paliya et al 2014). The five-year averaged TS value of this source is ∼723, which corresponds to ∼27σ detection.…”

Section: Long-term Flux Variabilitymentioning

confidence: 82%

“…Instead, the LP model seems to describe the data better. From the SED modeling of 1H 0323+342 and PMN J0948+0022, Abdo et al (2009d) constrained their γ-ray emission region to be well inside the BLR (see also Foschini et al 2012;Paliya et al 2014). In such a scenario, the presence of the curvature in the γ-ray spectrum of these two sources can be explained on the basis of the KN effect.…”

Section: Origin Of Spectral Curvature/breakmentioning

confidence: 99%

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FERMIMONITORING OF RADIO-LOUD NARROW-LINE SEYFERT 1 GALAXIES

Paliya

Stalin

Ravikumar

2015

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We present detailed analysis of the γ-ray flux variability and spectral properties of the five radio-loud narrow line Seyfert 1 (RL-NLSy1) galaxies, detected by the Large Area Telescope on board the Fermi Gamma-Ray Space Telescope, namely 1H 0323+342, SBS 0846+513, PMN J0948+0022, PKS 1502+036, and PKS 2004−447. The first three sources show significant flux variations, including the rapid variability of a few hours by 1H 0323+342. The average γ-ray spectrum of 1H 0323+342 and PMN J0948+0022 shows deviation from a simple power-law (PL) behavior, whereas the PL model gives a better fit for the other three sources. The spectra of 1H 0323+342, SBS 0846+513, and PMN J0948+0022, which are in low, flaring, and moderately active states, respectively, show significant curvature. Such curvature in the γ-ray spectrum of 1H 0323+342 and PMN J0948+0022 could be due to the emission region located inside the broad line region (BLR) where the primary mechanism of the γ-ray emission is inverse-Compton (IC) scattering of BLR photons occurring in the Klein-Nishina regime. The γ-ray emission of SBS 0846+513 is explained by IC scattering of dusty torus photons, which puts the emission region outside the BLR and thus under the Thomson regime. Therefore, the observed curvature of SBS 0846+513 could be intrinsic to the particle energy distribution. The presence of curvature in the γ-ray spectrum and flux variability amplitudes of some of the RL-NLSy1 galaxies suggests that these sources could be akin to low/moderate jet power flat spectrum radio quasars.

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Section: Short-term Flux Variability and Jet Energeticssupporting

confidence: 91%

Section: Long-term Flux Variabilitymentioning

confidence: 82%

Section: Origin Of Spectral Curvature/breakmentioning

confidence: 99%

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FERMIMONITORING OF RADIO-LOUD NARROW-LINE SEYFERT 1 GALAXIES

Paliya

Stalin

Ravikumar

2015

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“…It is interesting to compare with radio-quiet Seyferts, where a correlation between 2-10 keV flux and the spectral index was found, indicating a steepening of the spectral shape as the flux Ghisellini et al ( , 2010 and Tavecchio et al (2010); BLS1s and RQNLS1s are from Grupe et al (2010). increases (Markowitz et al 2003). Some interesting episodes were described in the case of J0324+3410 by Foschini et al (2009, and Tibolla et al (2013): the source has generally a soft spectral index, typical of NLS1s, but sometimes -as the jet became active -the X-ray spectrum displays a break at a 2-3 keV and a hard tail appears (see also Paliya et al 2014). Similar behaviour has been observed in another RLNLS1, PKS 0558−504 9 , where ASCA observed a hardening of the spectral index during an outburst, changing from ∼ 1.2 to ∼ 0.9 (Wang et al 2001).…”

Section: X-raysmentioning

confidence: 94%

“…-J0324+3410: log P rad = 42.8, log P kin = 44.3 (averaged over one year, Abdo et al 2009c), and log P rad = 41.29-41.74, log P kin = 44.06-45.14 (different states over five years monitoring, Paliya et al 2014). -J0849+5108: log P rad = 45.6 (peak during an outburst), log P kin = 45.3( 10 ) (D'Ammando et al 2012).…”

Section: Jet Powermentioning

confidence: 99%

Properties of flat-spectrum radio-loud narrow-line Seyfert 1 galaxies

Foschini

Berton

Caccianiga

et al. 2015

A&A

186

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We have conducted a multiwavelength survey of 42 radio loud narrow-1ine Seyfert 1 galaxies (RLNLS1s), selected by searching among all the known sources of this type and omitting those with steep radio spectra. We analyse data from radio frequencies to X-rays, and supplement these with information available from online catalogues and the literature in order to cover the full electromagnetic spectrum. This is the largest known multiwavelength survey for this type of source. We detected 90% of the sources in X-rays and found 17% at γ rays. Extreme variability at high energies was also found, down to timescales as short as hours. In some sources, dramatic spectral and flux changes suggest interplay between a relativistic jet and the accretion disk. The estimated masses of the central black holes are in the range ∼ 10 6−8 M ⊙ , lower than those of blazars, while the accretion luminosities span a range from ∼ 0.01 to ∼ 0.49 times the Eddington limit, with an outlier at 0.003, similar to those of quasars. The distribution of the calculated jet power spans a range from ∼ 10 42.6 to ∼ 10 45.6 erg s −1 , generally lower than quasars and BL Lac objects, but partially overlapping with the latter. Once normalised by the mass of the central black holes, the jet power of the three types of active galactic nuclei are consistent with each other, indicating that the jets are similar and the observational differences are due to scaling factors. Despite the observational differences, the central engine of RLNLS1s is apparently quite similar to that of blazars. The historical difficulties in finding radio-loud narrow-line Seyfert 1 galaxies might be due to their low power and to intermittent jet activity.

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Gamma-ray emitting narrow-line Seyfert 1 galaxies: Past, present, and future

Paliya

2019

J Astrophys Astron

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This article reviews our current understanding about γ-ray detected narrow-line Seyfert 1 (γ-NLSy1) galaxies. The detection with the Large Area Telescope onboard Fermi Gamma-ray Space Telescope has provided the strongest evidence for the presence of closely aligned relativistic jet in these intriguing active galactic nuclei (AGN) and opened up a realm to explore the physical conditions needed to launch the jet in a different central engine and host galaxy environment than that is known for blazars. Promising results acquired from various multiwavelength campaigns are converging to a scenario in which the γ-NLSy1 galaxies can be considered as 'young' blazars. These enigmatic sources hold the key to unravel the jet triggering mechanism and evolution of the AGN phase of a galaxy, in general. As such, γ-NLSy1s should be considered as one of the top priority targets for next generation observational facilities.

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The Peculiar Radio-Loud Narrow Line Seyfert 1 Galaxy 1h 0323+342

Cited by 73 publications

References 78 publications

FERMIMONITORING OF RADIO-LOUD NARROW-LINE SEYFERT 1 GALAXIES

FERMIMONITORING OF RADIO-LOUD NARROW-LINE SEYFERT 1 GALAXIES

Properties of flat-spectrum radio-loud narrow-line Seyfert 1 galaxies

Gamma-ray emitting narrow-line Seyfert 1 galaxies: Past, present, and future

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