Saved in:
Bibliographic Details
Main Authors: Wu, Xiancong, Wang, Hongguang, Tong, Hao, Luo, Rui, Wang, Pengfei, Lyu, Chengbing, Lei, Hai
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2604.27625
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866914520299995136
author Wu, Xiancong
Wang, Hongguang
Tong, Hao
Luo, Rui
Wang, Pengfei
Lyu, Chengbing
Lei, Hai
author_facet Wu, Xiancong
Wang, Hongguang
Tong, Hao
Luo, Rui
Wang, Pengfei
Lyu, Chengbing
Lei, Hai
contents The long-standing assumption of symmetric radio emission beams from the two magnetic poles of pulsars is challenged by observational evidence of asymmetry and underfill. Direct testing of this symmetry remains difficult for most pulsars. As an indirect test, we collected polarization profiles of 11 interpulse pulsars observed with the Five-hundred-meter Aperture Spherical radio Telescope, MeerKAT, and Parkes. We developed a rotating vector model incorporating aberration and retardation effects to fit the position angle swings of selected pulsars, thereby determining the intrinsic emission region corresponding to the observed pulse windows. Based on both the conal and fan beam models, we compared three key parameters-beam radius, magnetic azimuth width, and emission intensity-between the intrinsic emission regions of the main pulse and interpulse. Among the eight pulsars with a confirmed double-pole geometry, none exhibits similarity in the azimuth width. Only two show potentially similar beam radii, while six demonstrate comparable emission intensities within specific parameter spaces. These results indicate that the emission beams from the two magnetic poles of a pulsar may be generally dissimilar in size, suggesting that the physical conditions governing pair production and particle acceleration differ between the two poles. The random distribution of active emission regions further implies inhomogeneity within the polar cap, which may originate from the differences in local magnetic field structure or surface properties.
format Preprint
id arxiv_https___arxiv_org_abs_2604_27625
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle On the Difference Between Pulsar Radio Emission Beams from the Two Poles
Wu, Xiancong
Wang, Hongguang
Tong, Hao
Luo, Rui
Wang, Pengfei
Lyu, Chengbing
Lei, Hai
High Energy Astrophysical Phenomena
The long-standing assumption of symmetric radio emission beams from the two magnetic poles of pulsars is challenged by observational evidence of asymmetry and underfill. Direct testing of this symmetry remains difficult for most pulsars. As an indirect test, we collected polarization profiles of 11 interpulse pulsars observed with the Five-hundred-meter Aperture Spherical radio Telescope, MeerKAT, and Parkes. We developed a rotating vector model incorporating aberration and retardation effects to fit the position angle swings of selected pulsars, thereby determining the intrinsic emission region corresponding to the observed pulse windows. Based on both the conal and fan beam models, we compared three key parameters-beam radius, magnetic azimuth width, and emission intensity-between the intrinsic emission regions of the main pulse and interpulse. Among the eight pulsars with a confirmed double-pole geometry, none exhibits similarity in the azimuth width. Only two show potentially similar beam radii, while six demonstrate comparable emission intensities within specific parameter spaces. These results indicate that the emission beams from the two magnetic poles of a pulsar may be generally dissimilar in size, suggesting that the physical conditions governing pair production and particle acceleration differ between the two poles. The random distribution of active emission regions further implies inhomogeneity within the polar cap, which may originate from the differences in local magnetic field structure or surface properties.
title On the Difference Between Pulsar Radio Emission Beams from the Two Poles
topic High Energy Astrophysical Phenomena
url https://arxiv.org/abs/2604.27625