Abstract
Gamma-ray emitting narrow-line Seyfert 1 ($\gamma$-NLSy1) galaxies are thought to harbour relatively low-mass black holes (10$^6$-10$^8$ M$_{\odot}$) accreting close to the Eddington limit. They show characteristics similar to those of blazars, such as flux and spectral variability in the gamma-ray energy band and radio properties which point toward the presence of a relativistic jet. These characteristics make them an intriguing class of sources to be investigated with the Cherenkov Telescope Array (CTA), the next-generation ground-based gamma-ray observatory. We present our extensive set of simulations of all currently known $\gamma$-ray emitters identified as NLS1s (20 sources),investigating their detections and spectral properties, taking into account the effect of both the extra-galactic background light in the propagation of gamma-rays and intrinsic absorption components.We find that the prospects for observations of $\gamma$-NLSy1 with CTA are promising. In particular, the brightest sources of our sample, SBS 0846+513, PMN J0948+0022, and PKS 1502+036 can be detected during high/flaring states, the former two even in the case in which the emission occurs within the highly opaque central regions, which prevent $\gamma$ rays above few tens of GeV to escape. In this case the low-energy threshold of CTA will play a key role. If, on the other hand, high-energy emission occurs outside the broad line region, we can detect the sources up to several hundreds of GeV-depending on the intrinsic shape of the emitted spectrum. Therefore, CTA observations will provide valuable information on the physical conditions and emission properties of their jets.
Highlights
Narrow-Line Seyfert 1 galaxies (NLS1s) are a subclass of active galactic nuclei (AGN) characterised in the optical regime by narrow permitted emission lines (Hβ FWHM< 2000 km s−1, Goodrich 1989), weak forbidden [O iii] lines ([O iii] λ5007/Hβ < 3), and strong Iron emission lines
Redshift are drawn from NASA/IPAC Extragalactic Database (NED). γ-ray spectral models: PL=power law, LP=log-parabola, BKPL=broken power law. a Previously mis-classified as FSRQs (Paliya et al 2018). b Classified as candidate NLS1 by Paliya et al (2018), due to its relatively weak Fe ii emission (Fe ii/Hβ= 0.05). c Assumed associated with NVSS J095820+322401 (Paliya et al 2018). d see Yao et al (2015). e see Liao et al (2015). f see Berton et al (2017). g Classified as candidate NLS1 by Paliya et al (2018), due to the incompleteness in its Hβ emission line profile, leading to the ambiguity in the FWHM measurement
We considered only the instrumental background included in the IRFs (CTAIrfBackground) and no further contaminating astrophysical sources in the 5 deg field of view (FOV) we adopted for event extraction
Summary
Narrow-Line Seyfert 1 galaxies (NLS1s) are a subclass of active galactic nuclei (AGN) characterised in the optical regime by narrow permitted emission lines (Hβ FWHM< 2000 km s−1, Goodrich 1989), weak forbidden [O iii] lines ([O iii] λ5007/Hβ < 3), and strong Iron emission lines (high Fe ii/Hβ, Osterbrock & Pogge 1985). A hard component was found in the Swift/XRT X-ray spectra of NLS1s, as well as spectral variability in the hard X-ray as observed by INTEGRAL/IBIS and Swift/BAT (Foschini et al 2009) These properties are strongly reminiscent of those of jetted sources Redshift are drawn from NED. γ-ray spectral models: PL=power law, LP=log-parabola, BKPL=broken power law. a Previously mis-classified as FSRQs (Paliya et al 2018). b Classified as candidate NLS1 by Paliya et al (2018), due to its relatively weak Fe ii emission (Fe ii/Hβ= 0.05). c Assumed associated with NVSS J095820+322401 (Paliya et al 2018). d see Yao et al (2015). e see Liao et al (2015). f see Berton et al (2017). g Classified as candidate NLS1 by Paliya et al (2018), due to the incompleteness in its Hβ emission line profile, leading to the ambiguity in the FWHM measurement
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