Your search keyword '"Niu, Chen-Hui"' showing total 41 results

1. TransientVerse: A Comprehensive Real-Time Alert and Multi-Wavelength Analysis System for Transient Astronomical Events

Author

Fang, Jian-Hua, Li, Di, Wang, Pei, Chen, Hua-Xi, Wang, Han, Zhou, Deng-Ke, Bao, Qin-Ping, Li, Hai-Yan, Hu, Jing-Jing, Xie, Jin-Tao, Ge, Xiao-Dong, Feng, Yi, Quan, Dong-Hui, Kang, Zhi-Xuan, Guo, Xue-Rong, Jin, Chen-Wu, Wang, Zhi-Lin, Xu, Jia-Ying, Miao, Chen-Chen, Zhao, Ru-Shuang, and Niu, Chen-Hui

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - High Energy Astrophysical Phenomena

Abstract

Transient astrophysical events are characterized by short timescales, high energy, and multi-wavelength radiation, often accompanied by violent energy releases. These phenomena are a major focus of modern astronomical research. To reveal their underlying physical mechanisms, near-real-time, multi-wavelength, and multi-messenger follow-up observations are essential. However, current transient alert systems face multiple challenges, including fragmented messages, inconsistent formats, and difficulties in retrospective analysis, all of which hinder the efficiency of triggering observations. This paper presents \textbf{TransientVerse}, an innovative real-time database platform to integrate and disseminate transient alerts. The platform uses an automated pipeline to integrate real-time alerts from multiple sources (e.g., ATel, VOEvent, and GCN). It structures unstructured text data into a dual-format database for transient alerts by using open-source large language models. TransientVerse offers retrospective searches, data visualization, literature reviews, and customized subscriptions for efficient event tracking and analysis. Additionally, for Fast Radio Bursts (FRBs), the platform provides real-time statistics on repeat burst rates across different time intervals and alerts astronomers about high-frequency burst sources, enabling rapid follow-up observations and optimizing the use of limited observation windows. TransientVerse improves the efficiency of acquiring transient events in real time, lowers the technical barriers for simultaneous observations, and provides robust technical support for multi-wavelength, multi-messenger time-domain astronomy and astrophysics studies.

Published

2025

2. Polarization Characteristics of the Hyperactive FRB 20240114A

Author

Xie, Jin-Tao, Feng, Yi, Li, Di, Zhang, Yong-Kun, Zhou, Dengke, Qu, Yuanhong, Cui, Xianghan, Fang, Jianhua, Xu, Jiaying, Miao, Chenchen, Yuan, Mao, Tsai, Chao-Wei, Wang, Pei, Niu, Chen-Hui, Chen, Xiang-Lei, Xue, Mengyao, and Zhang, Jun-Shuo

Subjects

Astrophysics - High Energy Astrophysical Phenomena, High Energy Physics - Phenomenology

Abstract

Fast radio bursts (FRBs) are transient radio bursts of extragalactic origin characterized by millisecond durations and high luminosities. We report on observations of FRB 20240114A conducted with the Robert C. Byrd Green Bank Telescope (GBT) at frequencies ranging from 720 to 920 MHz. A total of 429 bursts were detected, with a single observation recording 359 bursts over 1.38 hours, corresponding to a burst rate of 260 bursts per hour. The average rotation measures (RMs) were $349.2 \pm 1.0$ rad m$^{-2}$ on February 23, 2024, and $360.4 \pm 0.4$ rad m$^{-2}$ on March 1, 2024. Of the 297 bursts with detected RMs, 72% have a linear polarization fraction greater than 90%, and 14% exhibit circular polarization with a signal-to-noise ratio $> 5$. Our sample also displayed polarization angle swings. We compare the linear polarization of FRB 20240114A with that of FRB 20201124A, FRB 20220912A, and non-repeating FRBs. The mean linear polarization fraction for non-repeating FRBs is 58%. In contrast, the mean linear polarization fraction for the three repeating FRBs is 94%, which is significantly higher than that of the non-repeating FRBs. Under the T-test, the three repeating FRBs have similar linear polarization distributions, but these distributions differ from those of the non-repeating FRBs. This suggests that non-repeating FRBs may have different emission mechanisms or are subject to depolarization., Comment: 42 pages, 5 figures. arXiv admin note: text overlap with arXiv:2304.14671

Published

2024

3. DRAFTS: A Deep Learning-Based Radio Fast Transient Search Pipeline

Author

Zhang, Yong-Kun, Li, Di, Feng, Yi, Tsai, Chao-Wei, Wang, Pei, Niu, Chen-Hui, Chen, Hua-Xi, and Zhu, Yu-Hao

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - High Energy Astrophysical Phenomena

Abstract

The detection of fast radio bursts (FRBs) in radio astronomy is a complex task due to the challenges posed by radio frequency interference (RFI) and signal dispersion in the interstellar medium. Traditional search algorithms are often inefficient, time-consuming, and generate a high number of false positives. In this paper, we present DRAFTS, a deep learning-based radio fast transient search pipeline. DRAFTS integrates object detection and binary classification techniques to accurately identify FRBs in radio data. We developed a large, real-world dataset of FRBs for training deep learning models. The search test on FAST real observation data demonstrates that DRAFTS performs exceptionally in terms of accuracy, completeness, and search speed. In the re-search of FRB 20190520B observation data, DRAFTS detected more than three times the number of bursts compared to Heimdall, highlighting the potential for future FRB detection and analysis., Comment: 20 pages, 10 figures, submitted

Published

2024

4. The Variability of Persistent Radio Sources of Fast Radio Bursts

Author

Yang, Ai Yuan, Feng, Yi, Tsai, Chao-Wei, Li, Di, Shi, Hui, Wang, Pei, Yang, Yuan-Pei, Zhang, Yong-Kun, Niu, Chen-Hui, Yao, Ju-Mei, Cui, Yu-Zhu, Su, Ren-Zhi, Li, Xiao-Feng, Zhang, Jun-Shuo, Zhu, Yu-Hao, and Cotton, W. D.

Subjects

Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Astrophysics of Galaxies

Abstract

Over 700 bright millisecond-duration radio transients, known as Fast Radio Bursts (FRBs), have been identified to date. Nevertheless, the origin of FRBs remains unknown. The two repeating FRBs (FRB 20121102A and FRB 20190520B) have been verified to be associated with persistent radio sources (PRSs), making them the best candidates to study the nature of FRBs. Monitoring the variability in PRSs is essential for understanding their physical nature. We conducted 22 observations of the PRSs linked to FRB 20121102A and FRB 20190520B using the Karl G. Jansky Very Large Array (VLA), to study their variability. We have observed significant flux variability for the PRSs of FRB 20121102A and FRB 20190520B, with a confidence level exceeding 99.99%, based on the observations covering the longest timescale recorded to date. The observed variability of the two PRSs exhibits no significant difference in amplitude across both short and long timescales. We found that the radio-derived star formation rates of the two FRB hosts are significantly higher than those measured by the optical $H_{\alpha}$ emissions, indicating that their host galaxies are highly obscured or most radio emissions are not from star formation processes. The observed timescale of PRS flux evolution constrained the magnetic field of FRB 20121102A with $B_\parallel\gtrsim1~{\rm mG}$ and FRB 20190520B with $B_\parallel\gtrsim0.1~{\rm mG}$., Comment: 16 pages, 7 figures, accepted by ApJ

Published

2024

5. Design and Implementation of a Scalable Correlator Based on ROACH2+GPU Cluster for Tianlai 96-Dual-Polarization Antenna Array

Author

Wang, Zhao, Li, Ji-Xia, Zhang, Ke, Wu, 1 Feng-Quan, Tian, Hai-Jun, Niu, Chen-Hui, Zhang, Ju-Yong, Chen, Zhi-Ping, Yu, Dong-Jin, and Chen, Xue-Lei

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

The digital correlator is one of the most crucial data processing components of a radio telescope array. With the scale of radio interferometeric array growing, many efforts have been devoted to developing a cost-effective and scalable correlator in the field of radio astronomy. In this paper, a 192-input digital correlator with six CASPER ROACH2 boards and seven GPU servers has been deployed as the digital signal processing system for Tianlai cylinder pathfinder located in Hongliuxia observatory. The correlator consists of 192 input signals (96 dual-polarization), 125-MHz bandwidth, and full-Stokes output. The correlator inherits the advantages of the CASPER system, for example, low cost, high performance, modular scalability, and a heterogeneous computing architecture. With a rapidly deployable ROACH2 digital sampling system, a commercially expandable 10 Gigabit switching network system, and a flexible upgradable GPU computing system, the correlator forms a low-cost and easily-upgradable system, poised to support scalable large-scale interferometeric array in the future., Comment: 12 pages, 13 figures, accepted for publication in Frontiers in Astronomy and Space Sciences, section Astronomical Instrumentation

Published

2024

6. Fast radio bursts generated by coherent curvature radiation from compressed bunches for FRB 20190520B

Author

Cui, Xiang-han, Wang, Zheng-wu, Zhang, Cheng-min, Niu, Chen-hui, Li, Di, Zhang, Jian-wei, and Wang, De-hua

Subjects

Astrophysics - High Energy Astrophysical Phenomena, High Energy Physics - Phenomenology

Abstract

The radiation mechanism of fast radio bursts (FRBs) has been extensively studied but still remains elusive. Coherent radiation is identified as a crucial component in the FRB mechanism, with charged bunches also playing a significant role under specific circumstances. In the present research, we propose a phenomenological model that draws upon the coherent curvature radiation framework and the magnetized neutron star, taking into account the kinetic energy losses of outflow particles due to inverse Compton scattering (ICS) induced by soft photons within the magnetosphere. By integrating the ICS deceleration mechanism for particles, we hypothesize a potential compression effect on the particle number density within a magnetic tube/family, which could facilitate achieving the necessary size for coherent radiation in the radial direction. This mechanism might potentially enable the dynamic formation of bunches capable of emitting coherent curvature radiation along the curved magnetic field. Moreover, we examine the formation of bunches from an energy perspective. Our discussion suggests that within the given parameter space the formation of bunches is feasible. Finally, we apply this model to FRB 20190520B, one of the most active repeating FRBs discovered and monitored by FAST. Several observed phenomena are explained, including basic characteristics, frequency downward drifting, and bright spots within certain dynamic spectral ranges., Comment: 16 pages, 9 figures, and 1 table. Accepted for publication in ApJ

Published

2023

7. 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

8. The arrival time and energy of FRBs traverse the time-energy bivariate space like a Brownian motion

Author

Zhang, Yong-Kun, Li, Di, Feng, Yi, Wang, Pei, Niu, Chen-Hui, Dai, Shi, Yao, Ju-Mei, and Tsai, Chao-Wei

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

The origin of fast radio bursts (FRBs), the brightest cosmic explosion in radio bands, remains unknown. We introduce here a novel method for a comprehensive analysis of active FRBs' behaviors in the time-energy domain. Using ``Pincus Index'' and ``Maximum Lyapunov Exponent'', we were able to quantify the randomness and chaoticity, respectively, of the bursting events and put FRBs in the context of common transient physical phenomena, such as pulsar, earthquakes, and solar flares. In the bivariate time-energy domain, repeated FRB bursts' behaviors deviate significantly (more random, less chaotic) from pulsars, earthquakes, and solar flares. The waiting times between FRB bursts and the corresponding energy changes exhibit no correlation and remain unpredictable, suggesting that the emission of FRBs does not exhibit the time and energy clustering observed in seismic events. The pronounced stochasticity may arise from a singular source with high entropy or the combination of diverse emission mechanisms/sites. Consequently, our methodology serves as a pragmatic tool for illustrating the congruities and distinctions among diverse physical processes., Comment: 8 pages, 6 figures, accepted for publication in Science Bulletin

Published

2023

9. An extremely active repeating fast radio burst source in a likely non-magneto-ionic environment

Author

Feng, Yi, Li, Di, Zhang, Yong-Kun, Tsai, Chao-Wei, Wang, Wei-Yang, Yang, Yuan-Pei, Qu, Yuanhong, Wang, Pei, Zhou, Dengke, Niu, Jiarui, Miao, Chenchen, Yuan, Mao, Xu, Jiaying, Lynch, Ryan S., Armentrout, Will, Gregory, Brenne, Meng, Lingqi, Wang, Shen, Chen, Xianglei, Dai, Shi, Niu, Chen-Hui, Xue, Mengyao, Yao, Ju-Mei, Zhang, Bing, Zhang, Junshuo, Zhu, Weiwei, and Zhu, Yuhao

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

Fast radio bursts (FRBs) are bright radio bursts originating at cosmological distances. Only three repeating FRBs FRB 20121102A, FRB 20190520B and FRB 20201124A among $\sim$ 60 known repeating FRBs have circular polarization. We observed the FRB 20220912A with the Robert C. Byrd Green Bank Telescope (GBT) at L-band on 24 October 2022 and detected 128 bursts in 1.4 hours, corresponding to a burst rate of about 90 hr$^{-1}$, which is the highest yet for FRBs observed by the GBT. The average rotation measure (RM) was $-$0.4$\pm$0.3$\,$rad$\,$m$^{-2}$ with negligible intraday RM change, indicating a likely non-magneto-ionic environment. 61% bursts have linear polarization fraction greater than 90%. Approximately 56% of the bright bursts have circular polarization. A downward drift in frequency and polarization angle swings were found in our sample. The characterization of FRB 20220912A indicates that the circular polarization is unlikely to be caused by the magneto-ionic environment for at least some of the repeating FRB population., Comment: accepted to ApJ

Published

2023

10. FAST Observations of FRB 20220912A: Burst Properties and Polarization Characteristics

Author

Zhang, Yong-Kun, Li, Di, Zhang, Bing, Cao, Shuo, Feng, Yi, Wang, Wei-Yang, Qu, Yuan-Hong, Niu, Jia-Rui, Zhu, Wei-Wei, Han, Jin-Lin, Jiang, Peng, Lee, Ke-Jia, Li, Dong-Zi, Luo, Rui, Niu, Chen-Hui, Tsai, Chao-Wei, Wang, Pei, Wang, Fa-Yin, Wu, Zi-Wei, Xu, Heng, Yang, Yuan-Pei, Zhang, Jun-Shuo, Zhou, De-Jiang, and Zhu, Yu-Hao

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

We report the observations of FRB 20220912A using the Five-hundred-meter Aperture Spherical radio Telescope (FAST). We conducted 17 observations totaling 8.67 hours and detected a total of 1076 bursts with an event rate up to 390 hr$^{-1}$. The cumulative energy distribution can be well described using a broken power-law function with the lower and higher-energy slopes of $-0.38\pm0.02$ and $-2.07\pm0.07$, respectively. We also report the L band ($1-1.5$ GHz) spectral index of the synthetic spectrum of FRB~20220912A bursts, which is $-2.6\pm0.21$. The average rotation measure (RM) value of the bursts from FRB~20220912A is $-0.08\pm5.39\ \rm rad\,m^{-2}$, close to 0 $\rm rad\,m^{-2}$ and maintain relatively stable over two months. Most bursts have nearly 100\% linear polarization. About 45\% of the bursts have circular polarization with SNR $>$ 3, and the highest circular polarization degree can reach 70\%. Our observations suggest that FRB~20220912A is located in a relatively clean local environment with complex circular polarization characteristics. These various behaviors imply that the mechanism of circular polarization of FRBs likely originates from an intrinsic radiation mechanism, such as coherent curvature radiation or inverse Compton scattering inside the magnetosphere of the FRB engine source (e.g. a magnetar)., Comment: 15 pages, 11 figures, 2 tables, submitted to ApJ, comments are welcome!

Published

2023

11. Scintillation Arc from FRB 20220912A

Author

Wu, Zi-Wei, Main, Robert A., Zhu, Wei-Wei, Zhang, Bing, Jiang, Peng, Niu, Jia-Rui, Han, Jin-Lin, Li, Di, Lee, Ke-Jia, Li, Dong-Zi, Yang, Yuan-Pei, Wang, Fa-Yin, Luo, Rui, Wang, Pei, Niu, Chen-Hui, Xu, Heng, Wang, Bo-Jun, Wang, Wei-Yang, Zhang, Yong-Kun, Feng, Yi, Zhou, De-Jiang, Xu, Yong-Hua, Deng, Can-Min, and Zhu, Yu-Hao

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

We present the interstellar scintillation analysis of fast radio burst (FRB) 20220912A during its extremely active episode in 2022 using data from the Five-hundred-meter Aperture Spherical Radio Telescope (FAST). We detect a scintillation arc in the FRB's secondary spectrum, which describes the power in terms of the scattered FRB signals' time delay and Doppler shift. The arc indicates that the scintillation is caused by a highly localized region of the ionized interstellar medium (IISM). Our analysis favors a Milky Way origin for the localized scattering medium but cannot rule out a host galaxy origin. We present our method for detecting the scintillation arc, which can be applied generally to sources with irregularly spaced bursts or pulses. These methods could help shed light on the complex interstellar environment surrounding the FRBs and in our Galaxy., Comment: SCIENCE CHINA Physics, Mechanics & Astronomy , Volume 67, Issue 1: 219512 (2024)

Published

2023

12. Atlas of dynamic spectra of fast radio burst FRB 20201124A

Author

Wang, Bo-Jun, Xu, Heng, Jiang, Jin-Chen, Xu, Jiang-Wei, Niu, Jia-Rui, Chen, Ping, Lee, Ke-Jia, Zhang, Bing, Zhu, Wei-Wei, Dong, Su-Bo, Zhang, Chun-Feng, Fu, Hai, Zhou, De-Jiang, Zhang, Yong-Kun, Wang, Pei, Feng, Yi, Li, Ye, Li, Dong-Zi, Lu, Wen-Bin, Yang, Yuan-Pei, Caballero, R. N., Cai, Ce, Chen, Mao-Zheng, Dai, Zi-Gao, Esamdin, A., Gan, Heng-Qian, Han, Jin-Lin, Hao, Long-Fei, Huang, Yu-Xiang, Jiang, Peng, Li, Cheng-Kui, Li, Di, Li, Hui, Li, Xin-Qiao, Li, Zhi-Xuan, Liu, Zhi-Yong, Luo, Rui, Men, Yun-Peng, Niu, Chen-Hui, Peng, Wen-Xi, Qian, Lei, Song, Li-Ming, Sun, Jing-Hai, Wang, Fa-Yin, Wang, Min, Wang, Na, Wang, Wei-Yang, Wu, Xue-Feng, Xiao, Shuo, Xiong, Shao-Lin, Xu, Yong-Hua, Xu, Ren-Xin, Yang, Jun, Yang, Xuan, Yao, Rui, Yi, Qi-Bin, Yue, You-Ling, Yu, Dong-Jun, Yu, Wen-Fei, Yuan, Jian-Ping, Zhang, Bin-Bin, Zhang, Song-Bo, Zhang, Shuang-Nan, Zhao, Yi, Zheng, Wei-Kang, Zhu, Yan, and Zou, Jin-Hang

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

Fast radio bursts (FRBs) are highly dispersed millisecond-duration radio bursts, of which the physical origin is still not fully understood. FRB 20201124A is one of the most actively repeating FRBs. In this paper, we present the collection of 1863 burst dynamic spectra of FRB 20201124A measured with the Five-hundred-meter Aperture Spherical radio Telescope (FAST). The current collection, taken from the observation during the FRB active phase from April to June 2021, is the largest burst sample detected in any FRB so far. The standard PSRFITs format is adopted, including dynamic spectra of the burst, and the time information of the dynamic spectra, in addition, mask files help readers to identify the pulse positions are also provided.

Published

2023

13. Circular Polarization in two Active Repeating Fast Radio Bursts

Author

Feng, Yi, Zhang, Yong-Kun, Li, Di, Yang, Yuan-Pei, Wang, Pei, Niu, Chen-Hui, Dai, Shi, and Yao, Ju-Mei

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

Fast radio bursts (FRBs) are bright millisecond radio bursts at cosmological distances. Only a small fraction of FRBs apparently repeat. Polarization, a fundamental property of electromagnetic signals, often carries critical information about the radiation processes, the environment, and the intervening medium of FRBs. Here we report circular polarization detections of two active repeating FRBs, namely FRBs 20121102A and 20190520B, with the Five-hundred-meter Aperture Spherical radio Telescope. We detect circular polarization in both active repeating FRBs, which increases the number of repeating FRBs with circular polarization to three. In one of the bursts of FRB 20121102A, we detect 64% degree of circular polarization. The observed circular polarization is unlikely induced by multipath propagation. Our observations favor circular polarization induced by Faraday conversion or radiation mechanism intrinsic to the FRB source. The conditions to generate circular polarization have to be rare in either case., Comment: 9pages, 3 figures, and 1 table, published in Science Bulletin

Published

2022

14. FAST observations of an extremely active episode of FRB 20201124A: II. Energy Distribution

Author

Zhang, Yong-Kun, Wang, Pei, Feng, Yi, Zhang, Bing, Li, Di, Tsai, Chao-Wei, Niu, Chen-Hui, Luo, Rui, Yao, Ju-Mei, Zhu, Wei-Wei, Han, J. L., Lee, Ke-Jia, Zhou, De-Jiang, Niu, Jia-Rui, Jiang, Jin-Chen, Wang, Wei-Yang, Zhang, Chun-Feng, Xu, Heng, Wang, Bo-Jun, and Xu, Jiang-Wei

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

We report the properties of more than 800 bursts detected from the repeating fast radio burst (FRB) source FRB 20201124A with the Five-hundred-meter Aperture Spherical radio Telescope (FAST) during an extremely active episode on UTC September 25-28, 2021 in a series of four papers. In this second paper of the series, we mainly focus on the energy distribution of the detected bursts. The event rate initially increased exponentially but the source activity stopped within 24 hours after the 4th day. The detection of 542 bursts in one hour during the fourth day marked the highest event rate detected from one single FRB source so far. The bursts have complex structures in the time-frequency space. We find a double-peak distribution of the waiting time, which can be modeled with two log-normal functions peaking at 51.22 ms and 10.05 s, respectively. Compared with the emission from a previous active episode of the source detected with FAST, the second distribution peak time is smaller, suggesting that this peak is defined by the activity level of the source. We calculate the isotropic energy of the bursts using both a partial bandwidth and a full bandwidth and find that the energy distribution is not significantly changed. We find that an exponentially connected broken-power-law function can fit the cumulative burst energy distribution well, with the lower and higher-energy indices being $-1.22\pm0.01$ and $-4.27\pm0.23$, respectively. Assuming a radio radiative efficiency of $\eta_r = 10^{-4}$, the total isotropic energy of the bursts released during the four days when the source was active is already $3.9\times10^{46}$ erg, exceeding $\sim 23\%$ of the available magnetar dipolar magnetic energy. This challenges the magnetar models invoking an inefficient radio emission (e.g. synchrotron maser models)., Comment: 26 pages, 7 figures, accepted for publication in Research in Astronomy and Astrophysics

Published

2022

15. FAST observations of an extremely active episode of FRB 20201124A: IV. Spin Period Search

Author

Niu, Jia-Rui, Zhu, Wei-Wei, Zhang, Bing, Yuan, Mao, Zhou, De-Jiang, Zhang, Yong-Kun, Jiang, Jin-Chen, Han, J. L., Li, Di, Lee, Ke-Jia, Wang, Pei, Feng, Yi, Li, Dong-Zi, Luo, Rui, Wang, Fa-Yin, Dai, Zi-Gao, Miao, Chen-Chen, Niu, Chen-Hui, Xu, Heng, Zhang, Chun-Feng, Wang, Wei-Yang, Wang, Bo-Jun, and Xu, Jiang-Wei

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

We report the properties of more than 800 bursts detected from the repeating fast radio burst (FRB) source FRB 20201124A with the Five-hundred-meter Aperture Spherical radio telescope (FAST) during an extremely active episode on UTC September 25th-28th, 2021 in a series of four papers. In this fourth paper of the series, we present a systematic search of the spin period and linear acceleration of the source object from both 996 individual pulse peaks and the dedispersed time series. No credible spin period was found from this data set. We rule out the presence of significant periodicity in the range between 1 ms to 100 s with a pulse duty cycle $< 0.49\pm0.08$ (when the profile is defined by a von-Mises function, not a boxcar function) and linear acceleration up to $300$ m s$^{-2}$ in each of the four one-hour observing sessions, and up to $0.6$ m s$^{-2}$ in all 4 days. These searches contest theoretical scenarios involving a 1 ms to 100 s isolated magnetar/pulsar with surface magnetic field $<10^{15}$ G and a small duty cycle (such as in a polar-cap emission mode) or a pulsar with a companion star or black hole up to 100 M$_{\rm \odot}$ and $P_b>10$ hours. We also perform a periodicity search of the fine structures and identify 53 unrelated millisecond-timescale "periods" in multi-components with the highest significance of 3.9 $\sigma$. The "periods" recovered from the fine structures are neither consistent nor harmonically related. Thus they are not likely to come from a spin period. We caution against claiming spin periodicity with significance below $\sim$ 4 $\sigma$ with multi-components from one-off FRBs. We discuss the implications of our results and the possible connections between FRB multi-components and pulsar micro-structures., Comment: Accepted by Research in Astronomy and Astrophysics (RAA)

Published

2022

16. FAST observations of an extremely active episode of FRB 20201124A: III. Polarimetry

Author

Jiang, Jin-Chen, Wang, Wei-Yang, Xu, Heng, Xu, Jiang-Wei, Zhang, Chun-Feng, Wang, Bo-Jun, Zhou, De-Jiang, Zhang, Yong-Kun, Niu, Jia-Rui, Lee, Ke-Jia, Zhang, Bing, Han, Jin-Lin, Li, Di, Zhu, Wei-Wei, Dai, Zi-Gao, Feng, Yi, Jing, Wei-Cong, Li, Dong-Zi, Luo, Rui, Miao, Chen-Chen, Niu, Chen-Hui, Tsai, Chao-Wei, Wang, Fa-Yin, Wang, Pei, Xu, Ren-Xin, Yang, Yuan-Pei, Yang, Zong-Lin, Yao, Ju-Mei, and Yuan, Mao

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

As the third paper in the multiple-part series, we report the statistical properties of radio bursts detected from the repeating fast radio burst (FRB) source FRB 20201124A with the Five-hundred-meter Aperture Spherical radio telescope (FAST) during an extremely active episode between the 25th and the 28th of September 2021 (UT). We focus on the polarisation properties of 536 bright bursts with $\mathrm{S/N}>50$. We found that the Faraday rotation measures (RMs) monotonically dropped from $-579 \ {\rm rad \ m^{-2}}$ to $-605 \ {\rm rad \ m^{-2}}$ in the 4-day window. The RM values were compatible with the values ($-300$ to $-900\ {\rm rad \ m^{-2}}$ ) reported 4 month ago (Xu et al. 2022). However, the RM evolution rate in the current observation window was at least an order of magnitude smaller than the one ($\sim 500\ {\rm rad \ m^{-2}\, day^{-1}}$) previously reported during the rapid RM-variation phase, but is still higher than the one ($\le 1\ {\rm rad \ m^{-2} day^{-1}}$ ) during the later RM no-evolution phase. The bursts of FRB 20201124A were highly polarised with the total degree of polarisation (circular plus linear) greater than 90% for more than 90\% of all bursts. The distribution of linear polarisation position angles (PAs), degree of linear polarisation ($L/I$), and degree of circular polarisation ($V/I$) can be characterised with unimodal distribution functions. During the observation window, the distributions became wider with time, i.e. with larger scatter, but the centroids of the distribution functions remained nearly constant. For individual bursts, significant PA variations (confidence level 5-$\sigma$) were observed in 33% of all bursts. The polarisation of single pulses seems to follow certain complex trajectories on the Poincar\'e sphere, which may shed light on the radiation mechanism at the source or the plasma properties along the path of FRB propagation., Comment: 25 pages, 16 figures. Accepted by Research in Astronomy and Astrophysics (RAA)

Published

2022

17. Deep simultaneous limits on optical emission from FRB 20190520B by 24.4 fps observations with Tomo-e Gozen

Author

Niino, Yuu, Doi, Mamoru, Sako, Shigeyuki, Ohsawa, Ryou, Arima, Noriaki, Jiang, Ji-an, Tominaga, Nozomu, Tanaka, Masaomi, Li, Di, Niu, Chen-Hui, Tsai, Chao-Wei, Kobayashi, Naoto, Takahashi, Hidenori, Kondo, Sohei, Mori, Yuki, Aoki, Tsutomu, Arimatsu, Ko, Kasuga, Toshihiro, and Okumura, Shin-ichiro

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

We conduct 24.4~fps optical observations of repeating Fast Radio Burst (FRB) 20190520B using Tomo-e Gozen, a high-speed CMOS camera mounted on the Kiso 105-cm Schmidt telescope, simultaneously with radio observations carried out using the Five-hundred-meter Aperture Spherical radio Telescope (FAST). We succeeded in the simultaneous optical observations of 11 radio bursts that FAST detected. However, no corresponding optical emission was found. The optical fluence limits as deep as 0.068 Jy ms are obtained for the individual bursts (0.029 Jy ms on the stacked data) corrected for the dust extinction in the Milky Way. The fluence limit is deeper than those obtained in the previous simultaneous observations for an optical emission with a duration $\gtrsim 0.1$ ms. Although the current limits on radio--optical spectral energy distribution (SED) of FRBs are not constraining, we show that SED models based on observed SEDs of radio variable objects such as optically detected pulsars, and a part of parameter spaces of theoretical models in which FRB optical emission is produced by inverse-Compton scattering in a pulsar magnetosphere or a strike of a magnetar blastwave into a hot wind bubble, can be ruled out once a similar fluence limit as in our observation is obtained for a bright FRB with a radio fluence $\gtrsim 5$ Jy ms., Comment: Accepted for publication in ApJ, metadata corrected

Published

2022

18. Magnetospheric curvature radiation by bunches as emission mechanism for repeating fast radio bursts

Author

Wang, Wei-Yang, Yang, Yuan-Pei, Niu, Chen-Hui, Xu, Renxin, and Zhang, Bing

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

Coherent curvature radiation as the radiation mechanism for fast radio bursts (FRBs) has been discussed since FRBs were discovered. We study the spectral and polarization properties of repeating FRBs within the framework of coherent curvature radiation by charged bunches in the magnetosphere of a highly magnetized neutron star. The spectra can be generally characterized by multisegment broken power laws, and evolve as bunches move and the line of sight sweeps. Emitted waves are highly linear polarized if the line of sight is confined to the beam within an angle of $1/\gamma$, while circular polarized degree becomes strong for off-beam cases. The spectro-temporal pulse-to-pulse properties can be a natural consequence due to the magnetospheric geometry. We investigate the relationship between drift rate, central frequency and their temporal duration. The radius-to-frequency mapping is derived and simulated within the assumptions of both dipolar and quadrupolar magnetic configurations. The geometric results show that FRBs are emitted in field lines more curved than open field lines for a dipolar geometry. This suggests that there are most likely existing multipolar magnetic configurations in the emission region., Comment: 21 pages, 14 figures, ApJ accepted, submitted on Sep 30th

Published

2021

19. CRAFTS for Fast Radio Bursts Extending the dispersion-fluence relation with new FRBs detected by FAST

Author

Niu, Chen-Hui, Li, Di, Luo, Rui, Wang, Wei-Yang, Yao, Jumei, Zhang, Bing, Zhu, Wei-Wei, Wang, Pei, Ye, Haoyang, Zhang, Yong-Kun, Niu, Jia-rui, Tang, Ning-yu, Duan, Ran, Krco, Marko, Dai, Shi, Feng, Yi, Miao, Chenchen, Pan, Zhichen, Qian, Lei, Xue, Mengyao, Yuan, Mao, Yue, Youling, Zhang, Lei, and Zhang, Xinxin

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

We report three new FRBs discovered by the Five-hundred-meter Aperture Spherical radio Telescope (FAST), namely FRB 181017.J0036+11, FRB 181118 and FRB 181130, through the Commensal Radio Astronomy FAST Survey (CRAFTS). Together with FRB 181123 that was reported earlier, all four FAST-discovered FRBs share the same characteristics of low fluence ($\leq$0.2 Jy ms) and high dispersion measure (DM, $>1000$ \dmu), consistent with the anti-correlation between DM and fluence of the entire FRB population. FRB 181118 and FRB 181130 exhibit band-limited features. FRB 181130 is prominently scattered ($\tau_s\simeq8$ ms) at 1.25 GHz. FRB 181017.J0036+11 has full-bandwidth emission with a fluence of 0.042 Jy ms, which is one of the faintest FRB sources detected so far. CRAFTS starts to built a new sample of FRBs that fills the region for more distant and fainter FRBs in the fluence-$\rm DM_E$ diagram, previously out of reach of other surveys. The implied all sky event rate of FRBs is $1.24^{+1.94}_{-0.90} \times 10^5$ sky$^{-1}$ day$^{-1}$ at the $95\%$ confidence interval above 0.0146 Jy ms. We also demonstrate here that the probability density function of CRAFTS FRB detections is sensitive to the assumed intrinsic FRB luminosity function and cosmological evolution, which may be further constrained with more discoveries., Comment: 9 Pages, 4 Plots and 1 Table. The Astrophysical Journal Letter Accepted

Published

2021

20. The arrival time and energy of FRBs traverse the time-energy bivariate space like a Brownian motion

Author

Zhang, Yong-Kun, primary, Li, Di, additional, Feng, Yi, additional, Wang, Pei, additional, Niu, Chen-Hui, additional, Dai, Shi, additional, Yao, Ju-Mei, additional, and Tsai, Chao-Wei, additional

Published

2024

21. Design and implementation of a scalable correlator based on ROACH2 + GPU cluster for tianlai 96-dual-polarization antenna array.

Author

Wang, Zhao, Li, Ji-Xia, Zhang, Ke, Wu, Feng-Quan, Tian, Hai-Jun, Niu, Chen-Hui, Zhang, Ju-Yong, Chen, Zhi-Ping, Yu, Dong-Jin, Chen, Xue-Lei, Werthimer, Dan, and An, Tao

Subjects

DIGITAL signal processing, RADIO telescopes, HETEROGENEOUS computing, SIGNAL processing, RADIO astronomy

Abstract

The digital correlator is one of the most crucial data processing components of a radio telescope array. With the scale of radio interferometeric array growing, many efforts have been devoted to developing a cost-effective and scalable correlator in the field of radio astronomy. In this paper, a 192-input digital correlator with six CASPER ROACH2 boards and seven GPU servers has been deployed as the digital signal processing system for Tianlai cylinder pathfinder located in Hongliuxia observatory. The correlator consists of 192 input signals (96 dual-polarization), 125-MHz bandwidth, and full-Stokes output. The correlator inherits the advantages of the CASPER system, for example, low cost, high performance, modular scalability, and a heterogeneous computing architecture. With a rapidly deployable ROACH2 digital sampling system, a commercially expandable 10 Gigabit switching network system, and a flexible upgradable GPU computing system, the correlator forms a low-cost and easilyupgradable system, poised to support scalable large-scale interferometeric array in the future. [ABSTRACT FROM AUTHOR]

Published

2024

22. FAST Observations of FRB 20220912A: Burst Properties and Polarization Characteristics

Author

Zhang, Yong-Kun, primary, Li, Di, additional, Zhang, Bing, additional, Cao, Shuo, additional, Feng, Yi, additional, Wang, Wei-Yang, additional, Qu, Yuanhong, additional, Niu, Jia-Rui, additional, Zhu, Wei-Wei, additional, Han, Jin-Lin, additional, Jiang, Peng, additional, Lee, Ke-Jia, additional, Li, Dong-Zi, additional, Luo, Rui, additional, Niu, Chen-Hui, additional, Tsai, Chao-Wei, additional, Wang, Pei, additional, Wang, Fa-Yin, additional, Wu, Zi-Wei, additional, Xu, Heng, additional, Yang, Yuan-Pei, additional, Zhang, Jun-Shuo, additional, Zhou, De-Jiang, additional, and Zhu, Yu-Hao, additional

Published

2023

23. An extreme active repeating fast radio burst in a clean environment

Author

Feng, Yi, Li, Di, Zhang, Yong-Kun, Tsai, Chao-Wei, Wang, Wei-Yang, Yang, Yuan-Pei, Qu, Yuanhong, Wang, Pei, Zhou, Dengke, Niu, Jiarui, Miao, Chenchen, Yuan, Mao, Xu, Jiaying, Lynch, Ryan S., Armentrout, Will, Gregory, Brenne, Meng, Lingqi, Wang, Shen, Chen, Xianglei, Dai, Shi, Niu, Chen-Hui, Xue, Mengyao, Yao, Ju-Mei, Zhang, Bing, Zhang, Junshuo, Zhu, Weiwei, Zhu, Yuhao, Feng, Yi, Li, Di, Zhang, Yong-Kun, Tsai, Chao-Wei, Wang, Wei-Yang, Yang, Yuan-Pei, Qu, Yuanhong, Wang, Pei, Zhou, Dengke, Niu, Jiarui, Miao, Chenchen, Yuan, Mao, Xu, Jiaying, Lynch, Ryan S., Armentrout, Will, Gregory, Brenne, Meng, Lingqi, Wang, Shen, Chen, Xianglei, Dai, Shi, Niu, Chen-Hui, Xue, Mengyao, Yao, Ju-Mei, Zhang, Bing, Zhang, Junshuo, Zhu, Weiwei, and Zhu, Yuhao

Abstract

Fast radio bursts (FRBs) are bright millisecond radio bursts at cosmological distances. Only three FRBs have exhibited extreme activities, such as achieving a peak event rate $\gtrsim 100$ hr$^{-1}$ or being persistently active. Only these three among $\sim 50$ known repeating FRBs have circular polarization. We observed the FRB 20220912A with the Robert C. Byrd Green Bank Telescope (GBT) at L-band on 24 October 2022 and detected 128 bursts in 1.4 hours, corresponding to a burst rate of about 90 hr$^{-1}$, which is the highest yet for FRBs observed by the GBT and makes it the fourth extremely active FRB. The median energy of the bursts is $4.0\times10^{37}$ erg, close to the characteristic energy of FRB 20121102A. The average rotation measure (RM) was $-$0.4 rad m$^{-2}$ with unnoticeable intraday RM change, indicating a likely clean environment, in contrast to the other three extremely active repeating FRBs. Most bursts have nearly 100% linear polarization. Approximately 56% of the bright bursts have circular polarization, the highest such fraction among all FRBs. A downward drift in frequency and polarization angle swings were found in our sample. The discovery and characterization of FRB 20220912A support the view that the downward drift in frequency, polarization angle swings, and circular polarization are intrinsic to radiation physics, which may be shared by active repeaters regardless of the environments.

Published

2023

24. Scintillation Arc from FRB 20220912A.

Author

Wu, Zi-Wei, Main, Robert A., Zhu, Wei-Wei, Zhang, Bing, Jiang, Peng, Niu, Jia-Rui, Han, Jin-Lin, Li, Di, Lee, Ke-Jia, Li, Dong-Zi, Yang, Yuan-Pei, Wang, Fa-Yin, Luo, Rui, Wang, Pei, Niu, Chen-Hui, Xu, Heng, Wang, Bo-Jun, Wang, Wei-Yang, Zhang, Yong-Kun, and Feng, Yi

Abstract

We present the interstellar scintillation analysis of fast radio burst (FRB) 20220912A during its extremely active episode in 2022 using data from the Five-hundred-meter Aperture Spherical Radio Telescope (FAST). We detect a scintillation arc in the FRB's secondary spectrum, which describes the power in terms of the scattered FRB signals' time delay and Doppler shift. The arc indicates that the scintillation is caused by a highly localized region. Our analysis favors a Milky Way origin of the ionized interstellar medium (IISM) for the localized scattering medium but cannot rule out a host galaxy origin. We present our method for detecting the scintillation arc, which can be applied generally to sources with irregularly spaced bursts or pulses. These methods could help shed light on the complex interstellar environment surrounding the FRBs and in our Galaxy. [ABSTRACT FROM AUTHOR]

Published

2024

25. FRBs' Brownian Motion on Time-Energy Bivariate Space

Author

Zhang, Yong-Kun, Li, Di, Feng, Yi, Wang, Pei, Niu, Chen-Hui, Dai, Shi, Yao, Ju-Mei, and Tsai, Chao-Wei

Subjects

High Energy Astrophysical Phenomena (astro-ph.HE), FOS: Physical sciences, Astrophysics - High Energy Astrophysical Phenomena

Abstract

The origin of fast radio bursts (FRBs), the brightest cosmic explosion in radio bands, remains unknown. Magnetar-related mechanisms are currently favored. The searches for short-term periodicity that is naturally expected for such fast-spinning compact objects, however, have failed. We introduce here a novel method for a comprehensive analysis of active FRBs' behaviors in the time-energy domain. Using ``Pincus Index'' and ``Maximum Lyapunov Exponent'', we were able to quantify the stochasticity and chaos, respectively, of the bursting events and put FRBs in the context of common transient physical phenomena, such as pulsars, earthquakes, and solar flares. In the bivariate time-energy domain, repeated FRB bursts' behaviors deviate significantly (more random, less chaotic) from pulsars, earthquakes, and solar flares. FRB bursts wander in time-energy space stochastically, akin to Brownian motions. The high degree of stochasticity suggests complex and even multi-origins for FRBs., Comment: 6 pages, 4 figures, submitted

Published

2023

26. Atlas of dynamic spectra of fast radio burst FRB 20201124A

Author

Wang, Bo-Jun, primary, Xu, Heng, additional, Jiang, Jin-Chen, additional, Xu, Jiang-Wei, additional, Niu, Jia-Rui, additional, Chen, Ping, additional, Lee, Ke-Jia, additional, Zhang, Bing, additional, Zhu, Wei-Wei, additional, Dong, Su-Bo, additional, Zhang, Chun-Feng, additional, Fu, Hai, additional, Zhou, De-Jiang, additional, Zhang, Yong-Kun, additional, Wang, Pei, additional, Feng, Yi, additional, Li, Ye, additional, Li, Dong-Zi, additional, Lu, Wen-Bin, additional, Yang, Yuan-Pei, additional, Caballero, R. N., additional, Cai, Ce, additional, Chen, Mao-Zheng, additional, Dai, Zi-Gao, additional, Esamdin, A., additional, Gan, Heng-Qian, additional, Han, Jin-Lin, additional, Hao, Long-Fei, additional, Huang, Yu-Xiang, additional, Jiang, Peng, additional, Li, Cheng-Kui, additional, Li, Di, additional, Li, Hui, additional, Li, Xin-Qiao, additional, Li, Zhi-Xuan, additional, Liu, Zhi-Yong, additional, Luo, Rui, additional, Men, Yun-Peng, additional, Niu, Chen-Hui, additional, Peng, Wen-Xi, additional, Qian, Lei, additional, Song, Li-Ming, additional, Sun, Jing-Hai, additional, Wang, Fa-Yin, additional, Wang, Min, additional, Wang, Na, additional, Wang, Wei-Yang, additional, Wu, Xue-Feng, additional, Xiao, Shuo, additional, Xiong, Shao-Lin, additional, Xu, Yong-Hua, additional, Xu, Ren-Xin, additional, Yang, Jun, additional, Yang, Xuan, additional, Yao, Rui, additional, Yi, Qi-Bin, additional, Yue, You-Ling, additional, Yu, Dong-Jun, additional, Yu, Wen-Fei, additional, Yuan, Jian-Ping, additional, Zhang, Bin-Bin, additional, Zhang, Song-Bo, additional, Zhang, Shuang-Nan, additional, Zhao, Yi, additional, Zheng, Wei-Kang, additional, Zhu, Yan, additional, and Zou, Jin-Hang, additional

Published

2023

27. Mechanism analysis of double helical balance drum to improve axial force of multistage pump

Author

Qian, Chen, primary, Yang, Li Huan, additional, Qi, Zhi Peng, additional, Yang, Cong Xin, additional, and Niu, Chen Hui, additional

Published

2022

28. Scattering variability detected from the circumsource medium of FRB 20190520B

Author

Ocker, Stella Koch, primary, Cordes, James M, additional, Chatterjee, Shami, additional, Li, Di, additional, Niu, Chen-Hui, additional, McKee, James W, additional, Law, Casey J, additional, and Anna-Thomas, Reshma, additional

Published

2022

29. Circular polarization in two active repeating fast radio bursts

Author

Feng, Yi, primary, Zhang, Yong-Kun, additional, Li, Di, additional, Yang, Yuan-Pei, additional, Wang, Pei, additional, Niu, Chen-Hui, additional, Dai, Shi, additional, and Yao, Ju-Mei, additional

Published

2022

30. FAST Observations of an Extremely Active Episode of FRB 20201124A. III. Polarimetry

Author

Jiang, Jin-Chen, primary, Wang, Wei-Yang, additional, Xu, Heng, additional, Xu, Jiang-Wei, additional, Zhang, Chun-Feng, additional, Wang, Bo-Jun, additional, Zhou, De-Jiang, additional, Zhang, Yong-Kun, additional, Niu, Jia-Rui, additional, Lee, Ke-Jia, additional, Zhang, Bing, additional, Han, Jin-Lin, additional, Li, Di, additional, Zhu, Wei-Wei, additional, Dai, Zi-Gao, additional, Feng, Yi, additional, Jing, Wei-Cong, additional, Li, Dong-Zi, additional, Luo, Rui, additional, Miao, Chen-Chen, additional, Niu, Chen-Hui, additional, Tsai, Chao-Wei, additional, Wang, Fa-Yin, additional, Wang, Pei, additional, Xu, Ren-Xin, additional, Yang, Yuan-Pei, additional, Yang, Zong-Lin, additional, Yao, Ju-Mei, additional, and Yuan, Mao, additional

Published

2022

31. FAST Observations of an Extremely Active Episode of FRB 20201124A. II. Energy Distribution

Author

Zhang, Yong-Kun, primary, Wang, Pei, additional, Feng, Yi, additional, Zhang, Bing, additional, Li, Di, additional, Tsai, Chao-Wei, additional, Niu, Chen-Hui, additional, Luo, Rui, additional, Yao, Ju-Mei, additional, Zhu, Wei-Wei, additional, Han, Jin-Lin, additional, Lee, Ke-Jia, additional, Zhou, De-Jiang, additional, Niu, Jia-Rui, additional, Jiang, Jin-Chen, additional, Wang, Wei-Yang, additional, Zhang, Chun-Feng, additional, Xu, Heng, additional, Wang, Bo-Jun, additional, and Xu, Jiang-Wei, additional

Published

2022

32. FAST Observations of an Extremely Active Episode of FRB 20201124A. IV. Spin Period Search

Author

Niu, Jia-Rui, primary, Zhu, Wei-Wei, additional, Zhang, Bing, additional, Yuan, Mao, additional, Zhou, De-Jiang, additional, Zhang, Yong-Kun, additional, Jiang, Jin-Chen, additional, Han, J. L., additional, Li, Di, additional, Lee, Ke-Jia, additional, Wang, Pei, additional, Feng, Yi, additional, Li, Dong-Zi, additional, Luo, Rui, additional, Wang, Fa-Yin, additional, Dai, Zi-Gao, additional, Miao, Chen-Chen, additional, Niu, Chen-Hui, additional, Xu, Heng, additional, Zhang, Chun-Feng, additional, Wang, Wei-Yang, additional, Wang, Bo-Jun, additional, and Xu, Jiang-Wei, additional

Published

2022

33. Deep Simultaneous Limits on Optical Emission from FRB 20190520B by 24.4 fps Observations with Tomo-e Gozen

Author

Niino, Yuu, primary, Doi, Mamoru, additional, Sako, Shigeyuki, additional, Ohsawa, Ryou, additional, Arima, Noriaki, additional, Jiang, Ji-an, additional, Tominaga, Nozomu, additional, Tanaka, Masaomi, additional, Li, Di, additional, Niu, Chen-Hui, additional, Tsai, Chao-Wei, additional, Kobayashi, Naoto, additional, Takahashi, Hidenori, additional, Kondo, Sohei, additional, Mori, Yuki, additional, Aoki, Tsutomu, additional, Arimatsu, Ko, additional, Kasuga, Toshihiro, additional, and Okumura, Shin-ichiro, additional

Published

2022

34. The Large Dispersion and Scattering of FRB 20190520B Are Dominated by the Host Galaxy

Author

Koch Ocker, Stella, primary, Cordes, James M., additional, Chatterjee, Shami, additional, Niu, Chen-Hui, additional, Li, Di, additional, McKee, James W., additional, Law, Casey J., additional, Tsai, Chao-Wei, additional, Anna-Thomas, Reshma, additional, Yao, Ju-Mei, additional, and Cruces, Marilyn, additional

Published

2022

35. Magnetospheric Curvature Radiation by Bunches as Emission Mechanism for Repeating Fast Radio Bursts

Author

Wang, Wei-Yang, primary, Yang, Yuan-Pei, additional, Niu, Chen-Hui, additional, Xu, Renxin, additional, and Zhang, Bing, additional

Published

2022

36. National Quality Infrastructure System and Its Application Progress in Photovoltaic Industry

Author

Sun, Rui, primary, Xiao, Hua-Feng, additional, Niu, Chen-Hui, additional, Cao, Qing-Wei, additional, and Yao, Zhong-Yuan, additional

Published

2022

37. Flow mechanism and axial force distribution characteristics of multistage pump cavity

Author

Qian Chen, Yang Li Huan, Qi Zhi Peng, Yang Cong Xin, and Niu Chen Hui

Subjects

Multidisciplinary

Abstract

The gap leakage between the impeller ring leads to the change of the pump cavity flow characteristics, resulting in the uneven pressure distribution of shroud, which causes the axial force of the cavity to change. In this paper, the flow in the front and the rear cavity of the multistage centrifugal pump was taken as the research object. Through the numerical method, the radial flow velocity, the leakage flow size and its direction, the core zone rotation factor of the front and the rear cavity of the multistage pump impeller at all stages and the axial force of pump cavity were studied. The results show that the leakage in the front cavity of multistage pump impeller at all stages flows inward along radial direction (i.e. it flows from the inlet of pump cavity to the front ring clearance). The rotation factor in core zone is higher than 0.5, and with the increase of rotation factor, the axial force of the front pump cavity increased. The leakage in the rear pump cavity flows outward along radial direction (i.e. it flows from the rear ring to the inlet of pump cavity). The rotation factor in core zone is less than 0.5, and with the increase of rotation factor, the axial force decreased gradually. Besides, the radial velocity and rotation factor in the front and the rear multistage pump of impellers were obviously along the axial direction at three regions, the regions are pump case boundary layer, core zone and impeller boundary layer. The flow in the core zone is dominated by circumferential circular motion, and the radial velocity in the core zone is 0. It is shown that the direction of the leakage in the pump cavity and the rotation effect of the flow micelle in the mainstream core zone are the main factors affecting the axial force of the pump cavity, and the research results can provide theoretical guidance for the calculation and suppression of axial force of multistage pumps.

Published

2022

38. Scattering variability detected from the circumsource medium of FRB 20190520B.

Author

Ocker, Stella Koch, Cordes, James M, Chatterjee, Shami, Li, Di, Niu, Chen-Hui, McKee, James W, Law, Casey J, and Anna-Thomas, Reshma

Subjects

SOLAR radio bursts, INHOMOGENEOUS plasma, IONIZED gases, ELECTRON density, PULSARS, NEUTRON stars

Abstract

Fast radio bursts (FRBs) are millisecond-time-scale radio transients, the origins of which are predominantly extragalactic and likely involve highly magnetized compact objects. FRBs undergo multipath propagation, or scattering, from electron density fluctuations on sub-parsec scales in ionized gas along the line of sight. Scattering observations have located plasma structures within FRB host galaxies, probed Galactic and extragalactic turbulence, and constrained FRB redshifts. Scattering also inhibits FRB detection and biases the observed FRB population. We report the detection of scattering times from the repeating FRB 20190520B that vary by up to a factor of 2 or more on minutes to days-long time-scales. In one notable case, the scattering time varied from 7.9 ± 0.4 ms to less than 3.1 ms (⁠|$95{{\ \rm per\ cent}}$|  confidence) over 2.9 min at 1.45 GHz. The scattering times appear to be uncorrelated between bursts or with dispersion and rotation measure variations. Scattering variations are attributable to dynamic, inhomogeneous plasma in the circumsource medium, and analogous variations have been observed from the Crab pulsar. Under such circumstances, the frequency dependence of scattering can deviate from the typical power law used to measure scattering. Similar variations may therefore be detectable from other FRBs, even those with inconspicuous scattering, providing a unique probe of small-scale processes within FRB environments. [ABSTRACT FROM AUTHOR]

Published

2023

39. CRAFTS for Fast Radio Bursts: Extending the Dispersion–Fluence Relation with New FRBs Detected by FAST

Author

Niu, Chen-Hui, primary, Li, Di, additional, Luo, Rui, additional, Wang, Wei-Yang, additional, Yao, Jumei, additional, Zhang, Bing, additional, Zhu, Wei-Wei, additional, Wang, Pei, additional, Ye, Haoyang, additional, Zhang, Yong-Kun, additional, Niu, Jia-rui, additional, Tang, Ning-yu, additional, Duan, Ran, additional, Krco, Marko, additional, Dai, Shi, additional, Feng, Yi, additional, Miao, Chenchen, additional, Pan, Zhichen, additional, Qian, Lei, additional, Xue, Mengyao, additional, Yuan, Mao, additional, Yue, Youling, additional, Zhang, Lei, additional, and Zhang, Xinxin, additional

Published

2021

40. Opportunities to search for extraterrestrial intelligence with the FAST

Author

Li, Di, primary, Gajjar, Vishal, additional, Wang, Pei, additional, Siemion, Andrew, additional, Zhang, Zhi-Song, additional, Zhang, Hai-Yan, additional, Yue, You-Ling, additional, Zhu, Yan, additional, Jin, Cheng-Jin, additional, Li, Shi-Yu, additional, Berger, Sabrina, additional, Brzycki, Bryan, additional, Cobb, Jeff, additional, Croft, Steve, additional, Czech, Daniel, additional, DeBoer, David, additional, DeMarines, Julia, additional, Drew, Jamie, additional, Emilio Enriquez, J., additional, Gizani, Nectaria, additional, Korpela, Eric J., additional, Isaacson, Howard, additional, Lebofsky, Matthew, additional, Lacki, Brian, additional, MacMahon, David H. E., additional, Nanez, Morgan, additional, Niu, Chen-Hui, additional, Pei, Xin, additional, Price, Danny C., additional, Werthimer, Dan, additional, Worden, Pete, additional, Gerry Zhang, Yunfan, additional, Zhang, Tong-Jie, additional, and Collaboration, FAST, additional

Published

2020

41. The design and implementation of a ROACH2+GPU based correlator on the Tianlai dish array

Author

Niu, Chen-Hui, primary, Wang, Qun-Xiong, additional, MacMahon, David, additional, Wu, Feng-Quan, additional, Chen, Xue-Lei, additional, Li, Ji-Xia, additional, Tian, Hai-Jun, additional, Shippee, Guillaume, additional, Werthimer, Dan, additional, and Zheng, Xiao-Ping, additional

Published

2019