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Your search keyword '"Kou, Fei-Fei"' showing total 11 results
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11 results on '"Kou, Fei-Fei"'

1. Reciprocating Magnetic Fields in the Pulsar Wind Observed from the Black Widow Pulsar J1720-0534

Author

Miao, Chen-Chen, Blackmon, Victoria, Zhu, Wei-Wei, Li, Dong-Zi, Ge, Mingyu, You, Xiao-Peng, McLaughlin, Maura, Li, Di, Wang, Na, Wang, Pei, Niu, Jia-Rui, Cruces, M., Yuan, Jian-Ping, Bai, Jun-Tao, Champion, D. J., Chen, Yu-Tong, Chi, Ming-Min, Freire, P. C. C., Feng, Yi, Gan, Zhen-Ye, Kramer, M., Kou, Fei-Fei, Li, Yu-Xi, Miao, Xue-Li, Meng, Ling-Qi, Niu, Chen-Hui, Sun, Sheng-Nan, Sun, Zhong-Yi, Tedila, H. M., Wang, Shuang-Qiang, Wu, Qing-Dong, Wang, Jing-Bo, Wen, Zhi-Gang, Wang, Shen, Wang, Ya-Biao, Wang, Cheng-Jie, Xue, Meng-Yao, Yue, You-Ling, Yuan, Mao, Yao, Ju-Mei, Yan, Wen-Ming, Zhao, Ru-Shuang, Zhang, Lei, and Zhao, De

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

We report the radio observations of the eclipsing black widow pulsar J1720-0534, a 3.26 ms pulsar in orbit with a low mass companion of mass 0.029 to 0.034 M$_{\odot}$. We obtain the phase-connected timing ephemeris and polarization profile of this millisecond pulsar (MSP) using the Five-hundred-meter Aperture Spherical Radio Telescope (FAST), the Green Bank Telescope (GBT), and the Parkes Telescope. For the first time from such a system, an oscillatory polarisation angle change was observed from a particular eclipse egress with partial depolarization, indicating 10-milliGauss-level reciprocating magnetic fields oscillating in a length scale of 5000 km (assuming an orbital inclination angle of 90 degrees) outside the companion's magnetosphere. The dispersion measure variation observed during the ingresses and egresses shows the rapid raising of the electron density in the shock boundary between the companion's magnetosphere and the surrounding pulsar wind. We suggest that the observed oscillatory magnetic fields originate from the pulsar wind outside the companion's magnetosphere., Comment: 15 pages, 8 figures, 1 table, accepted by RAA

Published
2023
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2. Results of 23 yr of Pulsar Timing of PSR J1453-6413

Author

Li, Wei, Dang, Shi-Jun, Yuan, Jian-Ping, Li, Lin, Wang, Wei-Hua, Shang, Lun-Hua, Wang, Na, Li, Qing-Ying, Lu, Ji-Guang, Kou, Fei-Fei, Wang, Shuang-Qiang, Xiao, Shuo, Zhi, Qi-Jun, Liu, Yu-Lan, Zhao, Ru-Shuang, Dong, Ai-Jun, Zhang, Bin, You, Zi-Yi, Cai, Yan-Qing, Yang, Ya-Qin, Ren, Ying-Ying, Liu, Yu-Jia, and Xu, Heng

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

In this paper, we presented the 23.3 years of pulsar timing results of PSR J1456-6413 based on the observation of Parkes 64m radio telescope. We detected two new glitches at MJD 57093(3) and 59060(12) and confirmed its first glitch at MJD 54554(10). Using the "Cholesky" timing analysis method, we have determined its position, proper motion, and two-dimensional transverse velocities from the data segments before and after the second glitch, respectively. Furthermore, we detected exponential recovery behavior after the first glitch, with a recovery time scale of approximately 200 days and a corresponding exponential recovery factor Q of approximately 0.15(2), while no exponential recovery was detected for the other two glitches. More interestingly, we found that the leading component of the integral pulse profile after the second glitch became stronger, while the main component became weaker. Our results will expand the sample of pulsars with magnetosphere fluctuation triggered by the glitch event.

Published
2023

3. A new emission mode of PSR B1859+07

Author

Wang, Tao, Wang, P. F., Han, J. L., Yan, Yi, Yu, Ye Zhao, and Kou, Fei Fei

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

Previous studies have identified two emission modes in PSR B1859+07: a normal mode that has three prominent components in the average profile, with the trailing one being the brightest, and an anomalous mode (i.e. the A mode) where emissions seem to be shifted to an earlier phase. Within the normal mode, further analysis has revealed the presence of two sub-modes, i.e. the cW mode and cB mode, where the central component can appear either weak or bright. As for the anomalous mode, a new bright component emerges in the advanced phase while the bright trailing component in the normal mode disappears. New observations of PSR B1859+07 by using the Five-hundred-meter Aperture Spherical radio Telescope (FAST) have revealed the existence of a previously unknown emission mode, dubbed as the Af mode. In this mode, all emission components seen in the normal and anomalous modes are detected. Notably, the mean polarization profiles of both the A and Af modes exhibit an orthogonal polarization angle jump in the bright leading component. The polarization angles for the central component in the original normal mode follow two distinct orthogonal polarization modes in the A and Af modes respectively. The polarization angles for the trailing component show almost the same but a small systematic shift in the A and Af modes, roughly following the values for the cW and cB modes. Those polarization features of this newly detected emission mode imply that the anomalous mode A of PSR B1859+07 is not a result of ``phase shift" or ``swooshes" of normal components, but simply a result of the varying intensities of different profile components. Additionally, subpulse drifting has been detected in the leading component of the Af mode., Comment: 8 pages, 5 figures, accepted for publication in RAA

Published
2023

4. Detection of 16 small glitches in 9 pulsars

Author

Zhou, Zu-Rong, Wang, Jing-Bo, Wang, Na, Yuan, Jian-Ping, Kou, Fei-Fei, and Dang, Shi-Jun

Subjects
High Energy Physics - Phenomenology, Astrophysics - Astrophysics of Galaxies, Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Solar and Stellar Astrophysics
Abstract

Timing observations from the Nanshan 26-m radio telescope for nine pulsars between 2000 and 2014 have been used to search for glitches. The data span for nine pulsars ranges from 11.6 to 14.2 years. From the total of 114 yr of pulsar rotational history, 16 new glitches were identified in 9 pulsars. Glitch parameters were measured by fitting the timing residuals data. All 16 glitches have a small fractional size. Six new glitches have been detected in PSR J1833-0827, making it another frequent glitching pulsar. Some of the 16 glitches may experience exponential or linear recovery, but it is unlikely for us to make further analyses with the large gap in the data set. All the glitch rates obtained from Nanshan are higher than that from Jodrell Bank Observatory. The small glitch size and high glitch rate could possibly attribute to the high observation cadence., Comment: 13 pages, 4 figures, 2 tables, accepted for publication in RAA. arXiv admin note: text overlap with arXiv:1211.2035 by other authors

Published
2022
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5. FAST ultra-wideband observation of abnormal emission-shift events of PSR B0919+06

Author

Yu, Ye-Zhao, Peng, Bo, Liu, Kuo, Zhang, Chengmin, Wang, Lin, Kou, Fei Fei, Lu, Jiguang, Yu, Meng, and Collaboration, FAST

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

PSR B0919+06 is known for its abnormal emission phenomenon, where the pulse emission window occasionally shifts progressively in longitude and returns afterwards. The physical mechanism behind this phenomenon is still under investigation. In this paper, we present our ultra-wideband observation of this pulsar using the Five-hundred-meter Aperture Spherical radio Telescope (FAST), with simultaneous measurements in the frequency ranges 280-780 MHz and 1250-1550 MHz. We have identified three abnormal events, each of which becomes less apparent as the frequency decreases. At 1400 MHz, the averaged profile slightly shifted after the first and third abnormal events, implying a relationship between abnormal event and profile variation. We also found a linear trend in the left-edge position of the averaged profiles between the first and third event as well as after the third event, suggesting the existence of a slow-drifting mode between the two major events. The second event has a comparatively small shift in phase and is thus categorized as a `small flare state'. During the third event, a sequence of approximately nine pulses was seen to significantly weaken in all frequency bands, likely associated with the pseudo-nulling observed at 150 MHz. A three-component de-composition analysis of the normal averaged profiles shows that the trailing component is dominant at our observing frequencies, while the centre component has a comparatively steeper spectrum. We found the overall flux density in an abnormal event to slightly differ from that in an ordinary state, and the difference shows a frequency dependence. A comparison of the normal, abnormal and dimmed averaged profile indicates that the leading component is likely to be stable in all states., Comment: Sci. China-Phys. Mech. Astron. 62,959504 (2019)

Published
2019

6. Scientific Paper Heterogeneous Graph Node Representation Learning Method Based onUnsupervised Clustering Level

Author

SONG Jie, LIANG Mei-yu, XUE Zhe, DU Jun-ping, KOU Fei-fei

Subjects
scientific paper, heterogeneous graph network, graph representation learning, link prediction, unsupervised learning, Computer software, QA76.75-76.765, Technology (General), T1-995
Abstract

Knowledge representation of scientific paper data is a problem to be solved,and how to learn the representation of paper nodes in scientific paper heterogeneous network is the core to solve this problem.This paper proposes an unsupervised cluster-level scientific paper heterogeneous graph node representation learning method(UCHL),aiming at obtaining the representation of nodes (authors,institutions,papers,etc.) in the heterogeneous graph of scientific papers.Based on the heterogeneous graph representation,this paper performs link prediction on the entire heterogeneous graph and obtains the relationship between the edges of the nodes,that is,the relationship between paper and paper.Experiments results show that the proposed method achieves excellent performance on multiple evaluation metrics on real scientific paper datasets.

Published
2022
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8. Spin-down and emission variations for PSR J0742−2822

Author

Dang, Shi-Jun, primary, Wang, Na, additional, Wang, Hui-Hui, additional, Yuan, Jian-Ping, additional, Shang, Lun-Hua, additional, Yuen, Rai, additional, Ge, Ming-Yu, additional, Zhou, Xia, additional, Wang, Shuang-Qiang, additional, Kou, Fei-Fei, additional, Yan, Wen-Ming, additional, Wang, Jing-Bo, additional, Wen, Zhi-Gang, additional, Bai, Jun-Tao, additional, Liu, Zhi-Yong, additional, and Zhou, Zu-Rong, additional

Published
2021
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