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Rapid rotation of polarization orientations in PSR B1919+21’s single pulses: implications on pulsar’s magnetospheric dynamics

Rapid rotation of polarization orientations in PSR B1919+21’s single pulses: implications on pulsar’s magnetospheric dynamics
Rapid rotation of polarization orientations in PSR B1919+21’s single pulses: implications on pulsar’s magnetospheric dynamics

We analyze and model rapid rotations of polarization orientations in PSR B1919+21’s single pulses based on Five-hundred-meter Aperture Spherical radio Telescope observation data. In more than one-third of B1919+21’s single pulses, the polarization position angle (PA) is found to rotate quasi-monotonically with pulse longitude over 180° or even 360°. Some single pulse PA even rotates by over 540°. Most of these quasi-monotonic PA curves have negative slopes with respect to pulse longitude. Oscillations of circular polarization fraction accompany these PA rotations. This rapid rotation could be induced by a quick change of phase lag between two normal wave modes within an individual pulse. We propose a phenomenological model to reproduce the observed polarization rotations in single pulses, and calculate phase lags in a dipolar magnetic field of an aligned rotating pulsar, with a dispersion relation of orthogonal wave modes in strongly magnetized electron-positron plasma. According to the dispersion relation, the weak frequency dependence of observed polarization rotation requires small angles between the radio wavevector and local magnetic fields, which requires the radio emission height to be low, on the order of 10 times neutron star radius.

0004-637X
Cao, Shunshun
d7a41646-55ca-4350-b2df-2274ff61a838
Jiang, Jinchen
44d64f64-8427-44ed-b3cc-4ed070b606d3
Dyks, Jaroslaw
095c78fb-4687-4cb1-ab91-d2ef7111d861
Lee, Kejia
11075882-82a6-4087-b304-84bf048a7d8b
Lu, Jiguang
6e9643d8-a0a3-4fa8-bf34-ee9e134a88cc
Oswald, Lucy S.
37bd35fc-2e68-4a79-8ada-fefaa61fa959
Wang, Weiyang
7cb3b388-374a-4fd5-9669-a74e0425665a
Xu, Renxin
6970dc7f-0841-485a-b7ed-db3cedcef011
Cao, Shunshun
d7a41646-55ca-4350-b2df-2274ff61a838
Jiang, Jinchen
44d64f64-8427-44ed-b3cc-4ed070b606d3
Dyks, Jaroslaw
095c78fb-4687-4cb1-ab91-d2ef7111d861
Lee, Kejia
11075882-82a6-4087-b304-84bf048a7d8b
Lu, Jiguang
6e9643d8-a0a3-4fa8-bf34-ee9e134a88cc
Oswald, Lucy S.
37bd35fc-2e68-4a79-8ada-fefaa61fa959
Wang, Weiyang
7cb3b388-374a-4fd5-9669-a74e0425665a
Xu, Renxin
6970dc7f-0841-485a-b7ed-db3cedcef011

Cao, Shunshun, Jiang, Jinchen, Dyks, Jaroslaw, Lee, Kejia, Lu, Jiguang, Oswald, Lucy S., Wang, Weiyang and Xu, Renxin (2025) Rapid rotation of polarization orientations in PSR B1919+21’s single pulses: implications on pulsar’s magnetospheric dynamics. The Astrophysical Journal, 983 (1), [43]. (doi:10.3847/1538-4357/adbe33).

Record type: Article

Abstract

We analyze and model rapid rotations of polarization orientations in PSR B1919+21’s single pulses based on Five-hundred-meter Aperture Spherical radio Telescope observation data. In more than one-third of B1919+21’s single pulses, the polarization position angle (PA) is found to rotate quasi-monotonically with pulse longitude over 180° or even 360°. Some single pulse PA even rotates by over 540°. Most of these quasi-monotonic PA curves have negative slopes with respect to pulse longitude. Oscillations of circular polarization fraction accompany these PA rotations. This rapid rotation could be induced by a quick change of phase lag between two normal wave modes within an individual pulse. We propose a phenomenological model to reproduce the observed polarization rotations in single pulses, and calculate phase lags in a dipolar magnetic field of an aligned rotating pulsar, with a dispersion relation of orthogonal wave modes in strongly magnetized electron-positron plasma. According to the dispersion relation, the weak frequency dependence of observed polarization rotation requires small angles between the radio wavevector and local magnetic fields, which requires the radio emission height to be low, on the order of 10 times neutron star radius.

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Accepted/In Press date: 5 March 2025
Published date: 3 April 2025

Identifiers

Local EPrints ID: 502803
URI: http://eprints.soton.ac.uk/id/eprint/502803
DOI: doi:10.3847/1538-4357/adbe33
ISSN: 0004-637X
PURE UUID: 56b75ac9-5d02-40a2-8993-bf7d62e2f83d
ORCID for Lucy S. Oswald: ORCID iD orcid.org/0000-0002-0838-0680

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Date deposited: 08 Jul 2025 16:53
Last modified: 22 Aug 2025 02:44

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Contributors

Author: Shunshun Cao
Author: Jinchen Jiang
Author: Jaroslaw Dyks
Author: Kejia Lee
Author: Jiguang Lu
Author: Lucy S. Oswald ORCID iD
Author: Weiyang Wang
Author: Renxin Xu

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