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Auteurs principaux: Cai, Yanqing, Dang, Shijun, Yuen, Rai, Shang, Lunhua, Kou, Feifei, Yuan, Jianping, Zhang, Lei, Zhou, Zurong, Wang, Na, Li, Qingying, Wen, Zhigang, Yan, Wenming, Wang, Shuangqiang, Sun, Shengnan, Tedila, Habtamu Menberu, Xiao, Shuo, Xu, Xin, Zhao, Rushuang, Zhi, Qijun, Dong, Aijun, Zhang, Bing, Li, Wei, Ren, Yingying, Liu, Yujia
Format: Preprint
Publié: 2024
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Accès en ligne:https://arxiv.org/abs/2401.10296
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author Cai, Yanqing
Dang, Shijun
Yuen, Rai
Shang, Lunhua
Kou, Feifei
Yuan, Jianping
Zhang, Lei
Zhou, Zurong
Wang, Na
Li, Qingying
Wen, Zhigang
Yan, Wenming
Wang, Shuangqiang
Sun, Shengnan
Tedila, Habtamu Menberu
Xiao, Shuo
Xu, Xin
Zhao, Rushuang
Zhi, Qijun
Dong, Aijun
Zhang, Bing
Li, Wei
Ren, Yingying
Liu, Yujia
author_facet Cai, Yanqing
Dang, Shijun
Yuen, Rai
Shang, Lunhua
Kou, Feifei
Yuan, Jianping
Zhang, Lei
Zhou, Zurong
Wang, Na
Li, Qingying
Wen, Zhigang
Yan, Wenming
Wang, Shuangqiang
Sun, Shengnan
Tedila, Habtamu Menberu
Xiao, Shuo
Xu, Xin
Zhao, Rushuang
Zhi, Qijun
Dong, Aijun
Zhang, Bing
Li, Wei
Ren, Yingying
Liu, Yujia
contents In this paper, we presented a detailed single pulse and polarization study of PSR J0614+2229 based on the archived data observed on 2019 August 15 (MJD 58710) and September 12 (MJD 58738) using the Ultra-wideband Low-frequency Receiver on the Parkes radio telescope. The single-pulse sequences show that this pulsar switches between two emission states, in which the emission of state A occurs earlier than that of state B in pulse longitude. We found that the variation in relative brightness between the two states is related to time and both states follow a simple power law very well. Based on the phase-aligned multi-frequency profiles, we found that there is a significant difference in the distributions of spectral index across the emission regions of the two states. Furthermore, we obtained the emission height evolution for the two emission states and found that, at a fixed frequency, the emission height of state A is higher than that of state B. What is even more interesting is that the emission heights of both states A and B have not changed with frequency. Our results suggest that the mode switching of this pulsar is possibly caused by changes in the emission heights that alter the distributions of spectral index across the emission regions of states A and B resulting in the frequency-dependent behaviors, i.e., intensity and pulse width.
format Preprint
id arxiv_https___arxiv_org_abs_2401_10296
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle The Study of Mode Switching behavior of PSR J0614+2229 Using the Parkes Ultra-wideband Receiver Observations
Cai, Yanqing
Dang, Shijun
Yuen, Rai
Shang, Lunhua
Kou, Feifei
Yuan, Jianping
Zhang, Lei
Zhou, Zurong
Wang, Na
Li, Qingying
Wen, Zhigang
Yan, Wenming
Wang, Shuangqiang
Sun, Shengnan
Tedila, Habtamu Menberu
Xiao, Shuo
Xu, Xin
Zhao, Rushuang
Zhi, Qijun
Dong, Aijun
Zhang, Bing
Li, Wei
Ren, Yingying
Liu, Yujia
High Energy Astrophysical Phenomena
Solar and Stellar Astrophysics
In this paper, we presented a detailed single pulse and polarization study of PSR J0614+2229 based on the archived data observed on 2019 August 15 (MJD 58710) and September 12 (MJD 58738) using the Ultra-wideband Low-frequency Receiver on the Parkes radio telescope. The single-pulse sequences show that this pulsar switches between two emission states, in which the emission of state A occurs earlier than that of state B in pulse longitude. We found that the variation in relative brightness between the two states is related to time and both states follow a simple power law very well. Based on the phase-aligned multi-frequency profiles, we found that there is a significant difference in the distributions of spectral index across the emission regions of the two states. Furthermore, we obtained the emission height evolution for the two emission states and found that, at a fixed frequency, the emission height of state A is higher than that of state B. What is even more interesting is that the emission heights of both states A and B have not changed with frequency. Our results suggest that the mode switching of this pulsar is possibly caused by changes in the emission heights that alter the distributions of spectral index across the emission regions of states A and B resulting in the frequency-dependent behaviors, i.e., intensity and pulse width.
title The Study of Mode Switching behavior of PSR J0614+2229 Using the Parkes Ultra-wideband Receiver Observations
topic High Energy Astrophysical Phenomena
Solar and Stellar Astrophysics
url https://arxiv.org/abs/2401.10296