Gamma rays from blazars

Tavecchio, F.

doi:10.1063/1.4968892

Cited by 10 publications

(8 citation statements)

References 100 publications

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“…Under the assumption that the spectrum of the cosmic magnetic field is sharply peaked at some scale ξ 0 (as is the case in all of the simulations presented here), the lower bounds on magnetic fields, inferred from the nonobservation of GeV cascades from TeV sources (Neronov & Vovk 2010;Tavecchio et al 2010;Dolag et al 2011) can be directly translated into a bound on magnetic helicity today. The observational bound scales as |B| ∝ ξ −1/2 0 for ξ 0 < 1 Mpc (Neronov & Vovk 2010) and therefore B 2 ξ 0 = const > 8 × 10 −38 G 2 Mpc.…”

Section: Early Universementioning

confidence: 76%

“…The limit given by Equation (61) is quite general. It does not rely on chiral MHD or the CME, but simply reinterprets the bounds of Neronov & Vovk (2010), Tavecchio et al (2010), Dolag et al (2011), andDermer et al (2011) as bounds on magnetic helicity. Given such an interpretation, we conclude that if cosmic magnetic fields are helical and have a cosmological origin, then at some moment in the history of the universe the density of chiral charge was much larger than n γ (T ).…”

Section: Early Universementioning

confidence: 99%

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Laminar and Turbulent Dynamos in Chiral Magnetohydrodynamics. II. Simulations

Schober

Rogachevskii

Brandenburg

et al. 2018

ApJ

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Using direct numerical simulations (DNS), we study laminar and turbulent dynamos in chiral magnetohydrodynamics (MHD) with an extended set of equations that accounts for an additional contribution to the electric current due to the chiral magnetic effect (CME). This quantum phenomenon originates from an asymmetry between left-and right-handed relativistic fermions in the presence of a magnetic field and gives rise to a chiral dynamo. We show that the magnetic field evolution proceeds in three stages: (1) a small-scale chiral dynamo instability; (2) production of chiral magnetically driven turbulence and excitation of a large-scale dynamo instability due to a new chiral effect (α µ effect); and (3) saturation of magnetic helicity and magnetic field growth controlled by a conservation law for the total chirality. The α µ effect becomes dominant at large fluid and magnetic Reynolds numbers and is not related to kinetic helicity. The growth rate of the large-scale magnetic field and its characteristic scale measured in the numerical simulations agree well with theoretical predictions based on mean-field theory. The previously discussed two-stage chiral magnetic scenario did not include stage (2) during which the characteristic scale of magnetic field variations can increase by many orders of magnitude. Based on the findings from numerical simulations, the relevance of the CME and the chiral effects revealed in the relativistic plasma of the early universe and of proto-neutron stars are discussed.

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Section: Early Universementioning

confidence: 76%

Section: Early Universementioning

confidence: 99%

Laminar and Turbulent Dynamos in Chiral Magnetohydrodynamics. II. Simulations

Schober

Rogachevskii

Brandenburg

et al. 2018

ApJ

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“…The extended emission search technique is also sensitive to the PH pattern, but in this case only lower constraints on B could be derived [32]. b) A simplified method that relies solely on the spectral information inside the point spread function (PSF) of the instrument was, so far, the most popular technique [15,[46][47][48][49][50][51][52]. However, in this case a part of information is lost, and the results are less robust than for the case of the MBC search method; therefore, the systematic uncertainty of this approach is large, sometimes not even allowing to exclude the hypothesis of B=0 [53].…”

Section: Contemporary Constraints On the Egmf Parameters In Voidsmentioning

confidence: 99%

Intergalactic electromagnetic cascades in the magnetized Universe as a tool of astroparticle physics

et al. 2018

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We review the physics of intergalactic electromagnetic cascades in the presence of the extragalactic magnetic field (EGMF). Various regimes of intergalactic electromagnetic cascades are considered depending on the number of cascade generations, the value of the cascade electron deflection angle, and the relations between the EGMF coherence length, typical cascade γ-ray mean free path, and electron energy loss length. We also review contemporary constraints on the EGMF parameters and explore the sensitivity of various γ-ray instruments to the EGMF parameters. *

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“…. Hence, the mode today is 12) and the profile is |A k (η 0 )| |e 1 | 2 + |e 2 | 2 . The evolutions of A k and its time derivative A k are sketched in Fig.…”

Section: Evolution Of Emfmentioning

confidence: 99%

“…By the recent CMB observations, the strength of the magnetic field is smaller than a few nano-gauss at the 1Mpc scale [10,11]. Additionally, the γ−ray detections of the distant blazars imply that the magnetic field should be larger than 10 −16 gauss on the scales 1 − 10 4 Mpc [1,2,[12][13][14][15]. Note that if alternative methods in data processing are used, the value of the lower limit 10 −16 gauss can be relaxed, for example, to 10 −18 gauss [2,14,16] and to 10 −19 gauss [17].…”

Section: Introductionmentioning

confidence: 99%

Primordial magnetic fields from gravitationally coupled electrodynamics in nonsingular bounce cosmology

Chen

et al. 2018

Sci. China Phys. Mech. Astron.

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We in this paper study the generation of primordial magnetic field (PMF) in the non-singular bouncing scenario, through the coupling of the electromagnetic field to gravity. We adopt an electrodynamic model with a coupling coefficient as a function of the scale factor a, i.e. f = 1 + (a/a ) −n , with a and n > 0 being constants. The result implies that in this mechanism, the power spectrum of PMF today is always blue tilted on large scales from 1 Mpc to the Hubble length, and the observational constraints favor the ekpyrotic-bounce scenario. Furthermore, the back reaction of the energy density of PMF at the bouncing point yields theoretical constraints on the bouncing model.

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Gamma rays from blazars

Cited by 10 publications

References 100 publications

Laminar and Turbulent Dynamos in Chiral Magnetohydrodynamics. II. Simulations

Laminar and Turbulent Dynamos in Chiral Magnetohydrodynamics. II. Simulations

Intergalactic electromagnetic cascades in the magnetized Universe as a tool of astroparticle physics

Primordial magnetic fields from gravitationally coupled electrodynamics in nonsingular bounce cosmology

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