2021-03-05
Scientific Papers
| No. | Title | Journal | Author | Links |
| 1 | FAST 19-beam Drift-scan Pulsar Survey Simulation | 2018, PROGRESS IN ASTRONOMY,36,2,173-188 | LIU Peng, WANG Pei, LI Di, et al. | FAST 19-beam Drift-scan Pulsar Survey Simulation.pdf |
| 2 | Search For Possible ExoMoons With FAST Telescope | 2018, Publications of the Astronomical Observatory of Belgrade, 98, 303-306 | D.V.LUKIC | Search For Possible ExoMoons With FAST Telescope.pdf |
| 3 | FRB ENERGETICS AND DETECTABILITY FROM HIGH REDSHIFTS | 2018, The Astrophysical Journal Letters, 867, 2,L21 | Bing Zhang | FRB ENERGETICS AND DETECTABILITY FROM HIGH REDSHIFTS.pdf |
| 4 | Probing satellite galaxies in the Local Group by using FAST | 2018, RAA, 18, 1, 003 | Jing Li, , Yougang Wang , Minzhi Kong, et al. |
Probing satellite galaxies in the Local Group by using FAST.pdf |
| 5 | Big Data Challenges of FAST | 2018, BigSDM Lecture Notes in Computer Science, 11473 | Youling Yue, Di Li | Big Data Challenges of FAST.pdf |
| 6 | Fast and SETI | 2018, 42nd COSPAR Scientific Assembly | Qian Lei | |
| 7 | FAST in Space: Considerations for a Multibeam, Multipurpose Survey Using China's 500-m Aperture Spherical Radio Telescope (FAST) | 2018, IEEE Microwave Magazine, 19, 3 | Li Di, Wang Pei, Qian Lei, et al. | https://ieeexplore.ieee.org/document/8331324 |
| 8 | FAST's Discovery of a New Millisecond Pulsar (MSP) toward the Fermi-LAT unassociated source 3FGL J0318.1+0252 | 2018, The Astronomer's Telegram, No. 11584 | Wang Pei, Li Di, Zhu Weiwei, et al. | http://www.astronomerstelegram.org/?read=11584 |
| 9 | HyGrid: A CPU-GPU Hybrid Convolution-based Gridding Algorithm in Radio Astronomy | 2018, ICA3PP 2018: Algorithms and Architectures for Parallel Processing, Part of the Lecture Notes in Computer Science book series, 11334, 621 | Qi Luo, Jian Xiao, Ce Yu, et al. | HyGrid: A CPU-GPU Hybrid Convolution-based Gridding Algorithm in Radio Astronomy.pdf |
| 10 | Advancing Pulsar Science with the FAST | 2019, SCPMA, 63, 2,229531 | Jiguang Lu, Kejia Lee, Renxin Xu | Advancing Pulsar Science with the FAST.pdf |
| 11 | DALiuGE/CASA Based Processing for the Extragalactic HI Observations with FAST | 2019,ASP Conference Series, 523,183-186 | Vyacheslav Kitaeff, Ming Zhu, Lister Staveley-Smith, et al. | DALiuGE/CASA Based Processing for the Extragalactic HI Observations with FAST.pdf |
| 12 | Preface: Planning the scientific applications of the Five-hundred-meter Aperture Spherical radio Telescope | 2019,RAA,19,2,16 | Di Li, John M. Dickey, Shu Liu | Preface: Planning the scientific applications of the Five-hundred-meter Aperture Spherical radio Telescope.pdf |
| 13 | The interstellar medium: the key component in galactic evolution and modern cosmology | 2019,RAA,19,2,17 | Carl Heiles, Di Li, Naomi McClure-Griffiths, et al. | The interstellar medium: the key component in galactic evolution and modern cosmology.pdf |
| 14 | Astrophysical constraints on the proton-to-electron mass ratio with FAST | 2019,RAA,19,2,18 | Xi Chen, Simon P. Ellingsen, Ying Mei | Astrophysical constraints on the proton-to-electron mass ratio with FAST.pdf |
| 15 | Prospects for detecting ultra-high-energy particles with FAST | 2019,RAA,19,2,19 | Clancy W. James, Justin D. Bray, Ronald D. Ekers | Prospects for detecting ultra-high-energy particles with FAST.pdf |
| 16 | The role of FAST in pulsar timing arrays | 2019,RAA,19,2,20 | George Hobbs, Shi Dai, Richard N. Manchester, et al. | The role of FAST in pulsar timing arrays.pdf |
| 17 | How can FAST improve study of the pulsar emission mechanism and magnetospheric dynamics? |
2019,RAA,19,2,21 | Hong-Guang Wang, Guo-Jun Qiao, Yuan-Jie Du, et al. | How can FAST improve study of the pulsar emission mechanism and magnetospheric dynamics.pdf |
| 18 | The potential of FAST in detecting celestial hydroxyl masers and related science topics | 2019,RAA,19,2,22 | Jiang-Shui Zhang, Di Li, Jun-Zhi Wang, et al. | The potential of FAST in detecting celestial hydroxyl masers and related science topics.pdf |
| 19 | Detecting exoplanets with FAST? | 2019,RAA,19,2,23 | Philippe Zarka, Di Li, Jean-Mathias Grießmeier, et al. | Detecting exoplanets with FAST.pdf |
| 20 | Study of three rotating radio transients with FAST | 2019, SCPMA, 62, 959503-959503-7 | Lu JiGuang, Peng Bo, Xu RenXin, et al. | Study of three rotating radio transients with FAST.pdf |
| 21 | FAST ultra-wideband observation of abnormal emission-shift events of PSR B0919+06 | 2019, SCPMA, 62, 959504-959504-6 | Yu YeZhao, Peng Bo, Liu Kuo, et al. | FAST ultra-wideband observation of abnormal emission-shift events of PSR B0919+06.pdf |
| 22 | The radiation structure of PSR B2016+28 observed with FAST | 2019, SCPMA, 62, 959505-959505-14 | Lu JiGuang, Peng Bo, Xu RenXin, et al. | The radiation structure of PSR B2016+28 observed with FAST.pdf |
| 23 | Status and perspectives of the CRAFTS extra-galactic HI survey | 2019, SCPMA, 62, 959506-959506-9 | Kai Zhang, Jingwen Wu, Di Li, et al. | Status and perspectives of the CRAFTS extra-galactic HI survey.pdf |
| 24 | Pulsar candidate selection using ensemble networks for FAST drift-scan survey | 2019, SCPMA, 62, 959507-959507-10 | Wang HongFeng, Zhu WeiWei, Guo Ping, et al. | Pulsar candidate selection using ensemble networks for FAST drift-scan survey.pdf |
| 25 | The first pulsar discovered by FAST | 2019, SCPMA, 62, 959508-959508-4 | Qian Lei, Pan ZhiChen, Li Di, et al. | The first pulsar discovered by FAST.pdf |
| 26 | PSR_J1926-0652:A Pulsar with Interesting Emission Properties Discovered at FAST | 2019, ApJ, 877, 5Z | Zhang Lei, Li Di, Hobbs George, et al. | PSR_J1926-0652:A Pulsar with Interesting Emission Properties Discovered at FAST.pdf |
| 27 | FAST Detects Multiple Bursts in L-band from FRB 121102 | 2019, The Astronomer's Telegram, No. 13064 | Di Li, Zhang Xinxin, Qian Lei, et al. | http://www.astronomerstelegram.org/?read=13064 |
| 28 | Radio detection of ultracool dwarfs with FAST | 2019,AAS Meeting #233, 465.05 | Tang Jing | |
| 29 | Polarization Commissioning of the Five hundred meter Aperture Spherical Telescope | 2019,AAS Meeting #233, 462.09 | Ching Tao-Chung, Tang Jing, Heiles Carl, et al. | |
| 30 | Progress on FAST Extragalactic Survey Data Reduction Pipeline | 2019, FAST-MeerKAT and SKA Pathfinders Synergies, 174 | Bo Zhang, Jian Xiao, Ce Yu, et al. | Progress on FAST Extragalactic Survey Data Reduction Pipeline.pdf |
| 31 | U-NetIM: An Improved U-Net for Automatic Recognition of RFIs | 2019, Proceeding of Astronomical Data Analysis Software & Systems XXVIII, ASP Conference Series, 523, 123 | Min Long, Zhicheng Yang, Jian Xiao, et al. | U-NetIM: An Improved U-Net for Automatic Recognition of RFIs.pdf |
| 32 | Observational Features of Exoplanetary Synchrotron Radio Bursts | 2020, The Astrophysical Journal, 895, 1, 22 | Gao, Y; Qian, L; Li, D | Observational Features of Exoplanetary Synchrotron Radio Bursts.pdf |
| 33 | Discovery of a Gamma-Ray Black Widow Pulsar by GPU-accelerated Einstein@Home | 2020, The Astrophysical Journal Letters. 902, L46 | Nieder, L. ; Clark, C. J. ; Kandel, D. , et al. | Discovery of a Gamma-Ray Black Widow Pulsar by GPU-accelerated Einstein@Home.pdf |
| 34 | The two emission states of PSR B1534+12 | 2020, The Astrophysical Journal Letters, 902, L13 | S. Q. Wang, G. Hobbs, J. B. Wang , et al. | The two emission states of PSR B1534+12.pdf |
| 35 | Automatic data processing pipeline for 19-beam HI observation of FAST | 2020, Proceedings of SPIE: Software and Cyberinfrastructure for Astronomy VI, 11452 | Zhi-yue Wang, Yu-tong Zhao, Ming-hao Jia, et al. | Automatic data processing pipeline for 19-beam HI observation of FAST.pdf |
| 36 | HDF5-based I/O Optimization for Extragalactic HI Data Pipeline of FAST | 2020, ICA3PP 2019: Algorithms and Architectures for Parallel Processing Proceedings, Part II, Part of the Lecture Notes in Computer Science book series, 11945, 656 | Yiming Ji, Ce Yu, Jian Xiao, et al. | HDF5-based I/O Optimization for Extragalactic HI Data Pipeline of FAST.pdf |
| 37 | Role of nucleon-nucleon correlation in transport coefficients and gravitational-wave-driven r-mode instability of neutron stars | 2020, Physics Letters B, 811, 135963 | X.L. Shang, P. Wang, W. Zuo, J.M. Dong | Role of nucleon-nucleon correlation in transport coefficients and gravitational-wave-driven r-mode instability of neutron stars.pdf |
| 38 | A PRESTO-based Parallel Pulsar Search Pipeline Used for FAST Drift Scan Data | 2020, RAA, 2:05 | Qiuyu Yu, Zhichen Pan, Lei Qian, et al. | A PRESTO-based Parallel Pulsar Search Pipeline Used for FAST Drift Scan Data.pdf |
| 39 | The design of China Reconfigurable ANalog-digital backEnd for FAST | 2020, RAA, 20, 5, 73 | Xin-Xin Zhang, Ran Duan, Xin-Ying Yu, et al. | The design of China Reconfigurable ANalog-digital backEnd for FAST.pdf |
| 40 | FAST VLBI: current status and future plans | 2020, RAA, 20, 5, 74 | Ru-Rong Chen, Hai-Yan Zhang, Cheng-Jin Jin, et al. | FAST VLBI: current status and future plans.pdf |
| 41 | FAST interstellar scintillation observation of PSR B1929+10 and PSR B1842+14 | 2020, RAA, 20, 5, 76 | Ju-Mei Yao, Wei-Wei Zhu, Pei Wang, et al. | FAST interstellar scintillation observation of PSR B1929+10 and PSR B1842+14.pdf |
| 42 | Pilot HI Survey of Planck Galactic Cold Clumps with FAST | 2020, RAA, 20, 5,77 | Tang Ningyu, Li Di, Zuo Pei, et al. | Pilot HI Survey of Planck Galactic Cold Clumps with FAST.pdf |
| 43 | Suggested quasi Cassegrain system for multi-beam observation of FAST |
2020,RAA,20,1,001 | Ding-qiang Su, Hua Bai, Xiangqun Cui | Suggested quasi Cassegrain system for multi-beam observation of FAST.pdf |
| 44 | Discovery and timing of pulsars in the globular cluster M13 with FAST | 2020, ApJ | Wang Lin, Peng Bo, Stappers B. W. ,et al. | Discovery and timing of pulsars in the globular cluster M13 with FAST.pdf |
| 45 | The FAST discovery of an Eclipsing Binary Millisecond Pulsar in the Globular Cluster M92 (NGC 6341) | 2020, ApJL, 892, L6 | Zhichen Pan, Scott M. Ransom, Duncan R. Lorimer, et al. | The FAST discovery of an Eclipsing Binary Millisecond Pulsar in the Globular Cluster M92 (NGC 6341).pdf |
| 46 | First SETI Observations with China's Five-hundred-meter Aperture Spherical radio Telescope (FAST) | 2020, ApJ | Zhang Zhi-Song, Werthimer Dan, Zhang Tong-Jie, et al. | First SETI Observations with China's Five-hundred-meter Aperture Spherical radio Telescope (FAST).pdf |
| 47 | Forecast for FAST: from galaxies survey to intensity mapping | 2020, MNRAS, 493, 5854–5870 | Wenkai Hu, Xin Wang, Fengquan Wu, et al. | Forecast for FAST: from galaxies survey to intensity mapping.pdf |
| 48 | Concat Convolutional Neural Network for pulsar candidate selection | 2020, MNRAS, 494, 3110–3119 | Qingguo Zeng, Xiangru Li, Haitao Lin | Concat Convolutional Neural Network for pulsar candidate selection.pdf |
| 49 | An in-depth investigation of 11 pulsars discovered by FAST | 2020, MNRAS, 495, 3515–3530 | Cameron A. D., Li D., Hobbs G., et al. | An in-depth investigation of 11 pulsars discovered by FAST.pdf |
| 50 | The atomic gas of star-forming galaxies at z ∼ 0.05 as revealed by the Five-hundred-meter Aperture Spherical Radio Telescope | 2020, A&A, 638, L14 | Cheng Cheng, Ibar Edo, Du Wei, et al. | The atomic gas of star-forming galaxies at z ∼ 0.05 as revealed by the Five-hundred-meter Aperture Spherical Radio Telescope.pdf |
| 51 | A Fast Radio Burst Discovered in FAST Drift Scan Survey | 2020, ApJL, 895, L6 | Zhu Weiwei, Li Di, Luo Rui, et al. | A Fast Radio Burst Discovered in FAST Drift Scan Survey.pdf |
| 52 | Diverse polarization angle swings from a repeating fast radio burst source | 2020, Nature, 586, 693–696 | R. Luo, B. J. Wang, Y. P. Men, et al. | https://doi.org/10.1038/s41586-020-2827-2 |
| 53 | The physical mechanisms of fast radio bursts | 2020,Nature, 587, 45-53 | Bing Zhang | https://doi.org/10.1038/s41586-020-2828-1 |
| 54 | No pulsed radio emission during a bursting phase of a Galactic magnetar | 2020, Nature, 587, 63–65 | L. Lin, C. F. Zhang, P. Wang, et al. | https://doi.org/10.1038/s41586-020-2839-y |
| 55 | Detection of two bright radio bursts from magnetar SGR 1935 + 2154 | 2020,Nature Astronomy, Advanced Online Publication | F. Kirsten,M. P. Snelders,M. Jenkins, et al. | Detection of two bright radio bursts from magnetar SGR 1935 + 2154.pdf |
| 56 | Toward a direct measurement of the cosmic acceleration: roadmap and forecast on FAST | 2020, JCAP, 01, 054 | Kang Jiao, Jian-Chen Zhang, Tong-Jie Zhang, et al. | Toward a direct measurement of the cosmic acceleration: roadmap and forecast on FAST.pdf |
| 57 | Opportunities to search for extraterrestrial intelligence with the FAST | 2020, RAA, 20, 5, 78 | Di Li, Vishal Gajjar, Pei Wang, et al. | Opportunities to search for extraterrestrial intelligence with the FAST.pdf |
| 58 | Luminosity of a radio pulsar and its new emission death line | 2020, RAA, 20, 11, 188 | Qing-Dong Wu, Qi-Jun Zhi, Cheng-Min Zhang, et al. | Luminosity of a radio pulsar and its new emission death line.pdf |
| 59 | Role of the Fan Beam Model in Population Synthesis of Isolated Radio Pulsars | 2020, APJ, 905, 144 | W. J. Huang, H. G. Wang | Role of the Fan Beam Model in Population Synthesis of Isolated Radio Pulsars.pdf |
| 60 | Electromagnetic response to high-frequency gravitational waves having additional polarization states: distinguishing and probing tensor-mode, vector-mode and scalar-mode gravitons | 2020,EPJC,80:879 | Fang-Yu Li, Hao Wen, Zhen-Yun Fang, et al. | Electromagnetic response to high-frequency gravitational waves having additional polarization states: distinguishing and probing tensor-mode, vector-mode and scalar-mode gravitons.pdf |
| 61 | Pulsar Discovery from an Enormous Telescope | 2020,AAS Nova Highlight, 6454 | Kohler, Susanna | https://aasnova.org/2020/04/17/pulsar-discovery-from-an-enormous-telescope/ |
| 62 | FRB121102 is active again as revealed by FAST | 2020, The Astronomer's Telegram, No. 13959 | Wang Pei, Men Yunpeng, Zhou Dejiang, et al. | http://www.astronomerstelegram.org/?read=13959 |
| 63 | Radio pulsation and imaging study of SGR J1935+2154 with the uGMRT | 2020, The Astronomer's Telegram, No. 13799 | Surnis Mayuresh, Joshi Bhal Chandra, Bagchi Manjari, et al. | http://www.astronomerstelegram.org/?read=13799 |
| 64 | A search for radio pulsations from SGR J1935+2154 | 2020, The Astronomer's Telegram, No. 13769 | Surnis Mayuresh, Joshi Bhal Chandra, Bagchi Manjari, et al. | http://www.astronomerstelegram.org/?read=13769 |
| 65 | FAST detection of radio bursts and pulsed emission from SGR J1935+2154 | 2020, The Astronomer's Telegram, No. 14084 | Zhu Weiwei, Wang Bojun, Zhou Dejiang, et al. | http://www.astronomerstelegram.org/?read=14084 |
| 66 | Insight-HXMT X-ray and hard X-ray upper limits to the radio burst detected by FAST from SGR 1935+2154 | 2020, The Astronomer's Telegram, No. 13703 | Li C. K., Tuo Y. L., Ge M. Y., et al. | http://www.astronomerstelegram.org/?read=13703 |
| 67 | FAST: Its Scientific Achievements and Prospects | 2020, The Innovation, 2020, 1: 100053 | Lei Qian, Rui Yao, Jinghai Sun, et al. | FAST: Its Scientific Achievements and Prospects.pdf |
| 68 | RPPPS: Re-analyzing Pipeline for Parkes Pulsar Survey | 2020, Astrophysics Source Code Library | Pan Zhichen, Qian Lei, Wang Chen | http://ascl.net/2001.013 |
| 69 | A pilot search for extragalactic OH absorption with FAST | 2020, MNRAS 499, 3085–3093 | Zheng Zheng, Di Li, Elaine M. Sadler, et al. | A pilot search for extragalactic OH absorption with FAST.pdf |
| 70 | The ITRF coordinates of the spherical center of FAST | eprint arXiv:2012.08359 Pub Date: December 2020 |
Lei Qian, Youling Yue | The ITRF coordinates of the spherical center of FAST.pdf |
| 71 | Periodic and Phase-locked Modulation in PSR B1929+10 Observed with FAST | eprint arXiv:2012.10156 Pub Date: December 2020 |
F. F. Kou, W. M. Yan, B. Peng, et al. | Periodic and Phase-locked Modulation in PSR B1929+10 Observed with FAST.pdf |
| 72 | Predictions for the FAST telescope’s CRAFTS extragalactic HI survey | 2021, MNRAS, 500, 1741–1754 | Kai Zhang, Jingwen Wu, Di Li, et al. | Predictions for the FAST telescope’s CRAFTS extragalactic HI survey.pdf |
| 73 | Adapting active reflector technology for greater sensitivity and sky-coverage in FAST-like telescopes | 2021, MNRAS, 501, 6210–6214 | Jian-Ling Li, Bo Peng, Cheng-Jin Jin, et al. | Adapting active reflector technology for greater sensitivity and sky-coverage in FAST-like telescopes.pdf |
| 74 | CRAFTS for Fast Radio Bursts: Extending the Dispersion–Fluence Relation with New FRBs Detected by FAST | 2021, APJL, 909, L8 | Chen-Hui Niu, Di Li, Rui Luo, et al. | CRAFTS for Fast Radio Bursts: Extending the Dispersion–Fluence Relation with New FRBs Detected by FAST.pdf |
| 75 | A Single-pulse Study of PSR J1022+1001 Using the FAST Radio Telescope | 2021, APJ, 908, 105 | Yi Feng, G. Hobbs, D. Li, et al. | A Single-pulse Study of PSR J1022+1001 Using the FAST Radio Telescope.pdf |
| 76 | Bursts before Burst: A Comparative Study on FRB 200428-associated and FRB-absent X-Ray Bursts from SGR J1935+2154 | 2021, APJL, 906, L12 | Yu-Han Yang, Bin-Bin Zhang, Lin Lin, et al. | Bursts before Burst: A Comparative Study on FRB 200428-associated and FRB-absent X-Ray Bursts from SGR J1935+2154.pdf |
| 77 | Radio frequency interference mitigation based on the asymmetrically reweighted penalized least squares and SumThreshold method | 2021, MNRAS, 500, 2969–2978 | Qingguo Zeng, Xue Chen,Xiangru Li, et al. | Radio frequency interference mitigation based on the asymmetrically reweighted penalized least squares and SumThreshold method.pdf |
| 78 | FAST Detected A Transient Periodic Signal In The Direction of LS I +61 303 | 2021, The Astronomer's Telegram, No. 14297 | Weng Shan-Shan, Pan ZhiChen, Qian Lei, et al. | http://www.astronomerstelegram.org/?read=14297 |
| 79 | Fast radio burst detection in the presence of coloured noise | 2021, Monthly Notices of the Royal Astronomical Society, 503, 5223 | Zhang, C. F., Xu, J. W., Men, Y. P., et al. | Fast radio burst detection in the presence of coloured noise.pdf |
| 80 | 脉冲星数据比对分析和可视化系统设计与实现 | 2021, 天文学报, 62, 1, 4 | 张辉, 王培, 张蕾,等 | 脉冲星数据比对分析和可视化系统设计与实现.pdf |
| 81 | Orbital Evolution of Neutron-Star – White-Dwarf Binaries by Roche-Lobe Overflow and Gravitational Wave Radiation | 2021, Monthly Notices of the Royal Astronomical Society, 503, 2776 | Shenghua Yu, Youjun Lu, and C. Simon Jeffery | Orbital Evolution of Neutron-Star – White-Dwarf Binaries by Roche-Lobe Overflow and Gravitational Wave Radiation.pdf |
| 82 | HCGrid: a convolution-based gridding framework for radio astronomy in hybrid computing environments | 2021, Monthly Notices of the Royal Astronomical Society, 501, 2734 | Hao Wang, Ce Yu, Bo Zhang, Jian Xiao, Qi Luo | HCGrid: a convolution-based gridding framework for radio astronomy in hybrid computing environments.pdf |
| 83 | The FAST Galactic Plane Pulsar Snapshot survey: I. Project design and pulsar discoveries? | 2021, Research in Astronomy and Astrophysics, 21, 5, 107 | J. L. Han, Chen Wang, P. F. Wang, et al. | The FAST Galactic Plane Pulsar Snapshot survey: I. Project design and pulsar discoveries?.pdf |
| 84 | A pilot study of interplanetary scintillation with FAST | 2021, Monthly Notices of the Royal Astronomical Society, 504, 5437 | Li-Jia Liu, Bo Peng, Lei Yu,et al. | A pilot study of interplanetary scintillation with FAST.pdf |
| 85 | Evidence for three-dimensional spin–velocity alignment in a pulsar | 2021, Nature Astronomy, 5, 788 | Jumei Yao, Weiwei Zhu, Richard N. Manchester,et al. | Evidence for three-dimensional spin–velocity alignment in a pulsar.pdf |
| 86 | FAST Globular Cluster Pulsar Survey: Twenty-four Pulsars Discovered in 15 Globular Clusters | 2021, The Astrophysical Journal Letters, 915, L28 | Zhichen Pan, Lei Qian, Xiaoyun Ma,et al. | FAST Globular Cluster Pulsar Survey: Twenty-four Pulsars Discovered in 15 Globular Clusters.pdf |
| 87 | Three pulsars discovered by FAST in the globular cluster NGC 6517 with a pulsar candidate sifting code based on dispersion measure to signal-to-noise ratio plots | 2021, Research in Astronomy and Astrophysics, 21, 6, 143 | Zhichen Pan, Xiao-Yun Ma, Lei Qian,et al. | Three pulsars discovered by FAST in the globular cluster NGC 6517 with a pulsar candidate sifting code based on dispersion measure to signal-to-noise ratio plots.pdf |
| 88 | Time-domain modulation of HD 189733 activities by its planet | 2021, The Astronomical Journal, 161, 6, 259 | Gao, Yang | Time-domain modulation of HD 189733 activities by its planet.pdf |
| 89 | Spatial Modulation Search Applied to the Search and Confirmation of Highly Scintillated Pulsars at FAST with A Pulsar Discovered in M3 | 2021, Research in Astronomy and Astrophysics, 21, 8, 185 | Lei Qian, Zhichen Pan | Spatial Modulation Search Applied to the Search and Confirmation of Highly Scintillated Pulsars at FAST with A Pulsar Discovered in M3.pdf |
| 90 | A single pulse study of PSR J1752+2359 | 2021, Research in Astronomy and Astrophysics, 21, 9, 240 | Sheng-Nan Sun,Wen-Ming Yan,Na Wang and Rai Yuen | A single pulse study of PSR J1752+2359.pdf |
| 91 | A Single Pulse Study of a Millisecond Pulsar PSR J0621+1002 | 2021, The Astrophysical Journal, 913, 1, 67 | Wang, S. Q. , Wang, J. B, Wang, N,et al. | A Single Pulse Study of a Millisecond Pulsar PSR J0621+1002.pdf |
| 92 | Extragalactic HI 21-cm absorption line observations by the Five-hundred-meter Aperture Spherical radio Telescope | 2021, Monthly Notices of the Royal Astronomical Society, 503, 5385 | Bo Zhang , Ming Zhu , Zhong-Zu Wu ,et al. | Extragalactic HI 21-cm absorption line observations by the Five-hundred-meter Aperture Spherical radio Telescope.pdf |
| 93 | Radio Recombination Line Observations at 1.0-1.5 GHz with FAST | 2021, Research in Astronomy and Astrophysics, 21, 8, 209 |
Chuan-Peng Zhang,Jin-Long Xu,Guang-Xing Li ,et al.
|
Radio Recombination Line Observations at 1.0-1.5 GHz with FAST.pdf |
| 94 | The discovery of the largest gas filament in our Galaxy, or a new spiral arm? | 2021, The Astrophysical Journal Letters, 918, L2 | Chong Li, Keping Qiu, Bo Hu, Yue Cao | The discovery of the largest gas filament in our Galaxy, or a new spiral arm?.pdf |
| 95 | A bimodal burst energy distribution of a repeating fast radio burst source | 2021, Nature, 598, 267 | D. Li, P. Wang, W. W. Zhu ,et al. | A bimodal burst energy distribution of a repeating fast radio burst source.pdf |
| 96 | An Eclipsing Black Widow Pulsar in NGC 6712 | 2021, The Astrophysical Journal, 921, 2, 120 | Zhen Yan, Zhi-chen Pan, Scott M. Ransom,et al. | An Eclipsing Black Widow Pulsar in NGC 6712.pdf |
| 97 | FAST Discovery of a Long HI Accretion Stream toward M106 | 2021, The Astrophysical Journal Letters, 922, L21 | Ming Zhu, Haiyang Yu, Jie Wang,et al. | FAST Discovery of a Long HI Accretion Stream toward M106.pdf |
| 98 | FAST discovery of an extremely radio-faint millisecond pulsar from the Fermi-LAT unassociated source 3FGL J0318.1+0252 | 2021, SCIENCE CHINA Physics, Mechanics & Astronomy, 64, 12, 129562 | Pei Wang, Di Li, Colin J. Clark,et al. | FAST discovery of an extremely radio-faint millisecond pulsar from the Fermi-LAT unassociated source 3FGL J0318.1+0252.pdf |
| 99 | Unusual Emission Variations Near the Eclipse of Black Widow Pulsar PSR J1720-0533 | 2021, The Astrophysical Journal Letters, 922, L13 | S. Q. Wang;J. B. Wang;N. Wang,et al. | Unusual Emission Variations Near the Eclipse of Black Widow Pulsar PSR J1720-0533.pdf |
| 100 | Long and Short Fast Radio Bursts Are Different from Repeating and Nonrepeating Transients | 2021, The Astrophysical Journal, 923, 230 | X. J. Li; X. F. Dong; Z. B. Zhang,et al. | Long and Short Fast Radio Bursts Are Different from Repeating and Nonrepeating Transients.pdf |
| 101 | FRB 190520B Embedded in a Magnetar Wind Nebula and Supernova Remnant: A Luminous Persistent Radio Source, Decreasing Dispersion Measure, and Large Rotation Measure | 2021, The Astrophysical Journal Letters, 923, L17 | Z. Y. Zhao; F. Y. Wang | FRB 190520B Embedded in a Magnetar Wind Nebula and Supernova Remnant: A Luminous Persistent Radio Source, Decreasing Dispersion Measure, and Large Rotation Measure.pdf |
| 102 | Energy and Waiting Time Distributions of FRB 121102 Observed by FAST | 2021, The Astrophysical Journal Letters, 920, L23 | G. Q. Zhang, P. Wang, Q. Wu,et al. | Energy and Waiting Time Distributions of FRB 121102 Observed by FAST.pdf |
| 103 | An early transition to magnetic supercriticality in star formation | 2022, Nature, 601, 49 | T.-C. Ching , D. Li, C. Heiles,et al. | An early transition to magnetic supercriticality in star formation.pdf |
| 104 | Frequency-dependent polarization of repeating fast radio bursts-implications for their origin | 2022, Science, 375, 1266 | Yi Feng, Di Li, Yuan-Pei Yang,et al. | Frequency-dependent polarization of repeating fast radio bursts-implications for their origin.pdf |
| 105 | Radio pulsations from a neutron star within the gamma-ray binary LS I +61° 303 | 2022, Nature Astronomy, 6, 698 | Shan-Shan Weng, Lei Qian, Bo-Jun Wang,et al. | Radio pulsations from a neutron star within the gamma-ray binary LS I +61° 303.pdf |
| 106 | Detection of strong scattering close to the eclipse region of PSR B1957+20 | 2022, Monthly Notices of the Royal Astronomical Society, 513, 1794 | J T Bai, S Dai, Q J Zhi,et al. | Detection of strong scattering close to the eclipse region of PSR B1957+20.pdf |
| 107 | A repeating fast radio burst associated with a persistent radio source | 2022, Nature, 606, 873 | C.-H. Niu, K. Aggarwal, D. Li, et al. | A repeating fast radio burst associated with a persistent radio source.pdf |
| 108 | FAST Search for Circumstellar Atomic Hydrogen. I. The Young Planetary Nebula IC 4997 | 2022, The Astrophysical Journal, 933, 1 | Xu-Jia Ouyang, Yong Zhang, Albert Zijlstra,et al. | FAST Search for Circumstellar Atomic Hydrogen. I. The Young Planetary Nebula IC 4997.pdf |