Constraints on the Intergalactic Magnetic Field from Bow Ties in the Gamma-Ray Sky
Pair creation on the cosmic infrared background and subsequent inverse-Compton scattering on the cosmic microwave background potentially reprocesses the TeV emission of blazars into faint GeV halos with structures sensitive to intergalactic magnetic fields (IGMF). Previous work has shown that these...
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| Veröffentlicht in: | The Astrophysical journal 2020-04, Vol.892 (2), p.123 |
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| creator | Tiede, Paul Broderick, Avery E. Shalaby, Mohamad Pfrommer, Christoph Puchwein, Ewald Chang, Philip Lamberts, Astrid |
| description | Pair creation on the cosmic infrared background and subsequent inverse-Compton scattering on the cosmic microwave background potentially reprocesses the TeV emission of blazars into faint GeV halos with structures sensitive to intergalactic magnetic fields (IGMF). Previous work has shown that these halos are then highly anisotropic and extended. If the coherence length of the IGMF is greater than the inverse-Compton cooling length of the pairs, then the orientation of the gamma-ray halo will be correlated with the direction of the magnetic field which is unknown and expected to change for each source. In order to constructively add each source we then use angular power spectra which are insensitive to the jet orientation. By looking at known GeV blazars detected by Fermi, we exclude the existence of an IGMF with coherence lengths >100 Mpc at greater than 3.9 with current-day strengths in the range 10−16 to 10−15 G, and at 2 from 10−17 to 10−14 G. This provides a direct measurement of the nonexistence of gamma-ray halos, providing an important check on previous results. |
| doi_str_mv | 10.3847/1538-4357/ab737e |
| format | Article |
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Previous work has shown that these halos are then highly anisotropic and extended. If the coherence length of the IGMF is greater than the inverse-Compton cooling length of the pairs, then the orientation of the gamma-ray halo will be correlated with the direction of the magnetic field which is unknown and expected to change for each source. In order to constructively add each source we then use angular power spectra which are insensitive to the jet orientation. By looking at known GeV blazars detected by Fermi, we exclude the existence of an IGMF with coherence lengths >100 Mpc at greater than 3.9 with current-day strengths in the range 10−16 to 10−15 G, and at 2 from 10−17 to 10−14 G. This provides a direct measurement of the nonexistence of gamma-ray halos, providing an important check on previous results.</description><identifier>ISSN: 0004-637X</identifier><identifier>EISSN: 1538-4357</identifier><identifier>DOI: 10.3847/1538-4357/ab737e</identifier><language>eng</language><publisher>Philadelphia: The American Astronomical Society</publisher><subject>Astrophysics ; Big Bang theory ; BL Lacertae objects ; Blazars ; Coherence length ; Cosmic microwave background ; Elastic scattering ; Gamma rays ; Halos ; High energy astrophysics ; Magnetic fields ; Power spectra ; Sciences of the Universe</subject><ispartof>The Astrophysical journal, 2020-04, Vol.892 (2), p.123</ispartof><rights>2020. The American Astronomical Society. 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| subjects | Astrophysics Big Bang theory BL Lacertae objects Blazars Coherence length Cosmic microwave background Elastic scattering Gamma rays Halos High energy astrophysics Magnetic fields Power spectra Sciences of the Universe |
| title | Constraints on the Intergalactic Magnetic Field from Bow Ties in the Gamma-Ray Sky |
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