The origin of multi-TeV flares from the nearest blazar Markarian 421

Sahu, Sarira; León, Alberto Rosales de; Nagataki, Shigehiro; Gupta, Virendra K.

doi:10.1140/epjc/s10052-018-6038-z

Cited by 11 publications

(8 citation statements)

References 69 publications

(101 reference statements)

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…However, the mean free path λ γγ for 12.2 GeV photon interacting with γ ≥1.4 MeV seed photon is λ γγ > R f if the photon density is n γ,f 10 10 cm −3 . This density is also consistent with the moderate efficiency of ∆-resonance process (Sahu et al 2018b), hence, attenuation in γ-rays in the inner jet due to e + e − production is negligible. It is worth mentioning here that, to fit the observed VHE spectrum of TXS 0506+056, it is not necessary to know the detail of the seed photon density, only the value of δ is enough to fit it.…”

Section: Vhe γ-Rays From Txs 0506+056supporting

confidence: 85%

“…where δ = α + β and F 0 is the normalization constant determined from the observed VHE SED. During the flaring period, the background seed photon flux behaves as a power-law Φ ∝ E −β γ where 0 < β ≤ 1.0 (Sahu et al 2018a). Recently, the flaring of HSP blazars have been classified into roughly three categories depending on the value of δ (Sahu et al 2019a).…”

Section: Photohadronic Modelmentioning

confidence: 99%

See 1 more Smart Citation

Photohadronic model for the neutrino and $γ$-ray emission from TXS 0506+056

Sahu,

Fortin,

Nagataki

2020

Preprint

Self Cite

View full text Add to dashboard Cite

The detection of a high energy muon neutrino on 22 September 2017 by IceCube neutrino detector coincides with the multiwavelength flaring from the BL Lac object TXS 0506+056, most likely confirming AGN as a source of high energy cosmic rays and neutrinos. Using the photohadronic model, we have explained the very high energy γ-rays observed by MAGIC telescopes few days after the neutrino event and extend the model to calculate the neutrino flux at different windows consistent with the flaring period of TXS 0506+056 and compared with the IceCube and MAGIC estimates. We also use this model to estimate the neutrino flux from the flaring of FSRQ PKS B1424-418 which is believed to be associated with the 2 PeV neutrino event observed by IceCube.

show abstract

Section: Vhe γ-Rays From Txs 0506+056supporting

confidence: 85%

Section: Photohadronic Modelmentioning

confidence: 99%

Photohadronic model for the neutrino and $γ$-ray emission from TXS 0506+056

Sahu,

Fortin,

Nagataki

2020

Preprint

Self Cite

View full text Add to dashboard Cite

show abstract

“…Again, during a 6-month long multi-instrument campaign (Banerjee et al 2019), a large VHE flare about 16 times larger than the usual one, was observed by MAGIC telescopes on 25th of April 2014 and soon it was followed-up by XMM-Newton and VERITAS. Several of the above multi-TeV flaring events from Mrk 421 have been explained extremely well by the standard photohadronic scenario (Sahu et al 2016(Sahu et al , 2018(Sahu et al , 2019.…”

Section: Flaring Of Mrk 421mentioning

confidence: 88%

Extreme HBL-like behavior of Markarian 421 and its two-zone photohadronic interpretation

Sahu,

Fortín,

Polanco

et al. 2021

Preprint

Self Cite

View full text Add to dashboard Cite

Markarian 421 is the nearest high-energy peaked blazar and also is the first extragalactic source to be detected in multi-TeV γ-rays. It has been observed in multiwavelength for exceptionally long period of time with dense monitoring and several major outbursts have been detected from this source. In March 2010, the source was in a high state of activity and was observed in multiwavelength by various telescopes for 13 consecutive days. During this period the position of the synchrotron peak was found to be above 10 17 Hz and also the position of the second peak was shifted towards higher energy, a signature of extreme HBL-like behavior. We observed that the standard photohadronic model is inadequate to explain the observed spectra. However, a recently proposed two-zone photohadronic model explains very well the GeV-TeV flaring events observed by both MAGIC and VERITAS telescopes. From the observation of the highest energy γ-ray event on MJD 55266 we also estimated the minimum bulk Lorentz factor.

show abstract

“…There is also PKS B1424-418, a Flat Spectrum Radio Quasar that was in temporal and positional coincidence with a high-energy starting event (HESE) on 2012 December, a cascade-like event with a reconstructed energy of 2 PeV but a median positional uncertainty of ∼16 • that gives an estimated ∼ 5% chance of coincidence (Kadler et al 2016). In addition, there are several studies searching for gamma-ray counterparts and predicting consistent limits within the IC neutrino flux so far (Krauß et al 2014(Krauß et al , 2015Brown, Adams & Chadwick 2015;Glüsenkamp 2016;Padovani et al 2016); the successful SED modelling of blazars during flaring episodes using hadronic models (Mücke & Protheroe 2001;Diltz, Böttcher & Fossati 2015;Diltz & Böttcher 2016;Sahu, de León & Miranda 2017;Sahu, de León & Nagataki 2018a;Sahu et al 2018b); and hadronic emission has been proposed as an explanation for the spectral hardening in TeV energy gamma-ray spectra, behaviour which has been observed in some blazars [e.g. W Comae, 3C 66A (Böttcher et al 2013), 1ES 0229+200 (Tavecchio et al 2009), 1ES 1101-232 and H 2356-309 (Aharonian et al 2006)].…”

mentioning

confidence: 99%

Photohadronic modelling of the 2010 gamma-ray flare from Mrk 421

León

Brown

Chadwick

2020

Monthly Notices of the Royal Astronomical Society

View full text Add to dashboard Cite

Blazars are a subclass of active galactic nuclei (AGNs) that have a relativistic jet with a small viewing angle towards the observer. Recent results based on hadronic scenarios have motivated an ongoing discussion of how a blazar can produce high energy neutrinos during a flaring state and which scenario can successfully describe the observed gamma-ray behaviour. Markarian 421 is one of the closest and brightest objects in the extragalactic gamma-ray sky and showed flaring activity over a 14-days period in 2010 March. In this work, we describe the performed analysis of Fermi-LAT data from the source focused on the MeV range (100 MeV–1 GeV), and study the possibility of a contribution coming from the pγ interactions between protons and MeV SSC target photons to fit the very high energy (VHE) gamma-ray emission. The fit results were compared with two leptonic models (one-zone and two-zone) using the Akaike Information Criteria (AIC) test, which evaluates goodness-of-fit alongside the simplicity of the model. In all cases, the photohadronic model was favoured as a better fit description in comparison to the one-zone leptonic model, and with respect to the two-zone model in the majority of cases. Our results show the potential of a photohadronic contribution to a lepto-hadronic origin of gamma-ray flux of blazars. Future gamma-ray observations above tens of TeV and below 100 MeV in energy will be crucial to test and discriminate between models.

show abstract

The origin of multi-TeV flares from the nearest blazar Markarian 421

Cited by 11 publications

References 69 publications

Photohadronic model for the neutrino and $γ$-ray emission from TXS 0506+056

Photohadronic model for the neutrino and $γ$-ray emission from TXS 0506+056

Extreme HBL-like behavior of Markarian 421 and its two-zone photohadronic interpretation

Photohadronic modelling of the 2010 gamma-ray flare from Mrk 421

Contact Info

Product

Resources

About