Fast Radio Bursts with Narrow Beaming Angles Can Escape from Magnetar Magnetospheres
Fast radio bursts (FRBs) are millisecond-duration transients observed in the radio band, with their origin and radiation mechanism remaining unclear to date. Growing evidence indicates that at least some FRBs originate from magnetars and are likely generated within the magnetospheres of these highly...
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IOP Publishing
2024-01-01
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| Online Access: | https://doi.org/10.3847/1538-4357/ad822e |
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| author | Yu-Chen Huang Zi-Gao Dai |
| author_facet | Yu-Chen Huang Zi-Gao Dai |
| author_sort | Yu-Chen Huang |
| collection | DOAJ |
| description | Fast radio bursts (FRBs) are millisecond-duration transients observed in the radio band, with their origin and radiation mechanism remaining unclear to date. Growing evidence indicates that at least some FRBs originate from magnetars and are likely generated within the magnetospheres of these highly magnetized neutron stars. However, a recent study suggested that FRBs originating from magnetar magnetospheres would be scattered by magnetospheric electron–positron pair plasma, making it impossible for them to escape successfully. In this paper, we first demonstrate that the scattering effect can be greatly attenuated if the angle between the FRB propagation direction and the background magnetic field is ∼10 ^−2 rad or smaller. When the angle is around 10 ^−1 rad, the beaming effect of FRBs becomes significant in reducing scattering. Such FRBs have small transverse spatial sizes, which can help them instantly push the front plasma laterally out of the radiation region. This significantly mitigates the FRB-induced two-photon annihilation reaction, γ + γ → e ^− + e ^+ , which was previously regarded as a key factor hindering the propagation of FRBs. A critical radiation-cone half-opening angle between 10 ^−3 and 10 ^−2 rad is found for an FRB with isotropic luminosity L _iso ∼ 10 ^42 erg s ^−1 and emitted at a radius r _em ≲ 10 ^9 cm in the magnetosphere of a magnetar. Smaller beaming angles and larger emission radii can be more advantageous for the propagation of FRBs in magnetospheres. Our result supports the scenario that FRBs could originate from magnetar magnetospheres. |
| format | Article |
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| language | English |
| publishDate | 2024-01-01 |
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| spelling | doaj-art-3668c8a076c747e0a2780ad073d7400c2025-08-20T02:12:35ZengIOP PublishingThe Astrophysical Journal1538-43572024-01-01975222610.3847/1538-4357/ad822eFast Radio Bursts with Narrow Beaming Angles Can Escape from Magnetar MagnetospheresYu-Chen Huang0https://orcid.org/0009-0009-7749-8998Zi-Gao Dai1https://orcid.org/0000-0002-7835-8585Department of Astronomy, University of Science and Technology of China , Hefei 230026, People's Republic of China ; daizg@ustc.edu.cn; School of Astronomy and Space Science, University of Science and Technology of China , Hefei 230026, People's Republic of ChinaDepartment of Astronomy, University of Science and Technology of China , Hefei 230026, People's Republic of China ; daizg@ustc.edu.cn; School of Astronomy and Space Science, University of Science and Technology of China , Hefei 230026, People's Republic of ChinaFast radio bursts (FRBs) are millisecond-duration transients observed in the radio band, with their origin and radiation mechanism remaining unclear to date. Growing evidence indicates that at least some FRBs originate from magnetars and are likely generated within the magnetospheres of these highly magnetized neutron stars. However, a recent study suggested that FRBs originating from magnetar magnetospheres would be scattered by magnetospheric electron–positron pair plasma, making it impossible for them to escape successfully. In this paper, we first demonstrate that the scattering effect can be greatly attenuated if the angle between the FRB propagation direction and the background magnetic field is ∼10 ^−2 rad or smaller. When the angle is around 10 ^−1 rad, the beaming effect of FRBs becomes significant in reducing scattering. Such FRBs have small transverse spatial sizes, which can help them instantly push the front plasma laterally out of the radiation region. This significantly mitigates the FRB-induced two-photon annihilation reaction, γ + γ → e ^− + e ^+ , which was previously regarded as a key factor hindering the propagation of FRBs. A critical radiation-cone half-opening angle between 10 ^−3 and 10 ^−2 rad is found for an FRB with isotropic luminosity L _iso ∼ 10 ^42 erg s ^−1 and emitted at a radius r _em ≲ 10 ^9 cm in the magnetosphere of a magnetar. Smaller beaming angles and larger emission radii can be more advantageous for the propagation of FRBs in magnetospheres. Our result supports the scenario that FRBs could originate from magnetar magnetospheres.https://doi.org/10.3847/1538-4357/ad822eRadio burstsRadio transient sourcesMagnetars |
| spellingShingle | Yu-Chen Huang Zi-Gao Dai Fast Radio Bursts with Narrow Beaming Angles Can Escape from Magnetar Magnetospheres The Astrophysical Journal Radio bursts Radio transient sources Magnetars |
| title | Fast Radio Bursts with Narrow Beaming Angles Can Escape from Magnetar Magnetospheres |
| title_full | Fast Radio Bursts with Narrow Beaming Angles Can Escape from Magnetar Magnetospheres |
| title_fullStr | Fast Radio Bursts with Narrow Beaming Angles Can Escape from Magnetar Magnetospheres |
| title_full_unstemmed | Fast Radio Bursts with Narrow Beaming Angles Can Escape from Magnetar Magnetospheres |
| title_short | Fast Radio Bursts with Narrow Beaming Angles Can Escape from Magnetar Magnetospheres |
| title_sort | fast radio bursts with narrow beaming angles can escape from magnetar magnetospheres |
| topic | Radio bursts Radio transient sources Magnetars |
| url | https://doi.org/10.3847/1538-4357/ad822e |
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