范锡龙，武汉大学教授。中国物理学会引力与相对论天体物理分会委员，湖北省天文学会副理事长。2016年基础物理学特别突破奖（因参与发现引力波与LVC成员一同分享）。主持国家自然科学基金优秀青年基金，湖北省自然科学杰出青年基金，科技部国家重点研发计划引力波专项课题。

主要从事引力波天文学，引力波数据处理，以及星系化学演化方面的研究。

三篇“综述”可以了解我在此领域的主要贡献：

• 范锡龙*，  透镜化引力波的散射问题及其应用。  https://www.sciengine.com/publisher/scp/journal/CSB/66/20/10.1360/TB-2020-1170?slug=fulltext

• 范锡龙* ， 贝叶斯引力波多信使天文学 https://www.sciengine.com/publisher/scp/journal/SSPMA/48/7/10.1360/SSPMA2018-00102?slug=fulltext

• 范锡龙* ， The title of my thesis is “Galaxy evolution by chemical and spectro-photometric models”  http://astronomy.lamost.org/blog/?page_id=545

其它科学目标的构建：

• 命名“引力波泊松-阿拉贡亮斑”的现象

• 提出利用未来空间引力波探测器的观测研究白矮星结构和状态方程的方案

• 提出解释目前观测到所有双黑洞并合事件中单个黑洞自旋值很小这一问题的方案，并且构建了一个未来检验自旋提取机制的数据处理方法

• 量子信息与引力波背景
  

数据处理方法的构建：

• 提出引力波爆的定位方法，

• 提出已知脉冲星群组产生连续引力波的探测方法

• 使用EEMD方法重构超新星引力波波形的方法

• 提出加速探测银河系双白矮星引力波的方法
  

发表论文列表： ads

引力波科普：

• 打开宇宙时空弯曲的大门， 《人民日报》  作者： 朱宗宏，范锡龙

• 陈雁北、范锡龙：爱因斯坦都不敢想象，我们真的探测到引力波！  知社，作者：陈雁北， 范锡龙

• 量子力学与相对论翩翩起舞, 科学家在宇宙金矿挖论文金矿 | 引力波重磅  知社，作者：陈雁北， 范锡龙

• 时空与物质、广义相对论与量子力学的完美结合 ——深度科普解读双中子星并合多信使观测， 《物理》，2017， 作者：陈雁北， 范锡龙
  

• 又“听”黑洞并合，“猴年马月”并不遥远 《科技日报》 2016-06-16 01版

• 引力波能绕过黑洞吗？——引力波本性的思考 ， 科学网， 张宏升、范锡龙

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引力波研究文章详情：

GW astronomy application

nCBC

1. Constraining the ellipticity and frequency of binary neutron star remnant via its gravitational-wave and electromagnetic radiations , Yuan, Yong ; Fan, Xi-Long; Lü, Hou-Jun, 2023, MNRAS
   

2. Gravitational Wave Radiation from Newborn Accreting Magnetars, Cheng, Quan ; Zheng, Xiao-Ping ; Fan, Xi-Long ; Huang, Xi, ,2023, RAA
   

3. Probing the Large-scale Structure of the Universe Through Gravitational Wave Observations, Shao, Xiaoyun ; Cao, Zhoujian ; Fan, Xilong; Wu, Shichao, 2022, RAA

4. Tail wavelets in merger of binary compact objects , Lin, Kai ; Qian, Wei-Liang ; Fan, Xilong ; Zhang, Hongsheng , CPC, 2020
   

5. Probing Intrinsic Properties of Short Gamma-Ray Bursts with Gravitational Waves, Fan, Xilong; Messenger, Christopher ; Heng, Ik Siong , 2017, PRL

nBackground

1. Search for stochastic gravitational-wave background from string cosmology with Advanced LIGO and Virgo's O1 O3 data, Jiang, Yang ; Fan, Xi-Long ; Huang, Qing-Guo , 2023

2. How gravitational fluctuations degrade the high-dimensional spatial entanglement, Wu, Haorong; Fan, Xilong; Chen, Lixiang , 2022
   

3. Constraining the Stochastic Gravitational Wave from String Cosmology with Current and Future High-frequency Detectors, Li, Yufeng ; Fan, Xilong ; Gou, Lijun, 2019, ApJ  

4. Stochastic gravitational-wave background from spin loss of black holes, Fan, Xi-Long; Chen, Yanbei, 2018, PRD

5. Short gamma-ray bursts and gravitational-wave observations from eccentric compact binaries , Tan, Wei-Wei; Fan, Xi-Long; Wang, F. Y, MNRAS, 2018
   

6. Stochastic Gravitational Wave Background from Neutron Star r-mode Instability Revisited , Zhu, Xing-Jiang; Fan, Xi-Long; Zhu, Zong-Hong, 2011, ApJ  

nMulti-messenger astronomy

1. Using a multi-messenger and multi-wavelength observational strategy to probe the nature of dark energy through direct measurements of cosmic expansion history . Qi, Jing-Zhao ; Jin, Shang-Jie ; Fan, Xi-Long ; Zhang, Jing-Fei ; Zhang, Xin, 2021, JCAP
   

nSpace:

1. Determining the Nature of White Dwarfs from Low-frequency Gravitational Waves, Han, Wen-Biao; Fan, Xi-Long , 2018, ApJ

GW data analysis

nBust

1. Geometrical expression of the angular resolution of a network of gravitational-wave detectors and improved localization methods， Wen, L.; Fan, X.; Chen, Y.,， 2008， JPhCS
   

2. Some optimizations on detecting gravitational wave using convolutional neural network, Li, Xiang-Ru ; Yu, Wo-Liang ; Fan, Xi-Long ; Babu, G. Jogesh, FoP, 2020

3. Waveform Reconstruction of Core-Collapse Supernovae Gravitational-Waves with Ensemble Empirical Mode Decomposition，  Yuan, Yong ; Fan, Xi-Long ; Lv, Hou-Jun ; Sun, Yang-Yi ; Lin, Kai， 2024, MNRAS
   
   

nBackground

1. The optimal approach of detecting stochastic gravitational wave from string cosmology using multiple detectors，Xi-Long Fan and Zong-Hong Zhu， 2008. PLB
   
   

nCW

1. Method to detect gravitational waves from an ensemble of known pulsars, Fan, Xilong; Chen, Yanbei; Messenger, Christopher，  2016, PRD
   

2. Hierarchical Bayesian method for detecting continuous gravitational waves from an ensemble of pulsars, Pitkin, M.; Messenger, C. ; Fan, X. ,2018, PRD

   
   

nCBC

1. Applying deep neural networks to the detection and space parameter estimation of compact binary coalescence with a network of gravitational wave detectors, Xilong Fan, Jin Li, Xin Li, Yuanhong Zhong, Junwei Cao, SCHPMA, 2019
   

2. Exploring the sky localization and early warning capabilities of third generation gravitational wave detectors in three-detector network configurations, Li, Yufeng; Heng, Ik Siong ; Chan, Man Leong ; Messenger, Chris; Fan, Xilong, 2022, PRD

   
   

nMulti-messenger astronomy

1. A Bayesian approach to multi-messenger astronomy: Identification of gravitational-wave host galaxies

   
   

nSpace:

1. Fast resolution of Galactic binaries in LISA data , Gao, Pin; Fan, Xi-Long ; Cao, Zhou-Jian ; Zhang, Xue-Hao,  PRD 2023
   

2. Characterizing instrumental noise and stochastic gravitational wave signals from combined time-delay interferometry, Wang, Gang; Li, ; Xu, Peng; Fan, Xilong 2022,PRD

3. Simultaneously search for multi-target Galactic binary gravitational waves in reduced parameter space with LMPSO-CV ,  Gao, Pin ; Fan, Xilong ; Cao, Zhoujian , 2024,  PRD
   
   

Lensed GW system

nWave nature:

1. Poisson-Arago spot for gravitational waves , Zhang, HongSheng; Fan, XiLong, 2021, SCPMA
   

2. Gravitational lensing of gravitational waves: Rotation of polarization plane , Hou, Shaoqi ; Fan, Xi-Long; Zhu, Zong-Hong , 2019, PRD
   

3. The Wave Nature of Continuous Gravitational Waves from Microlensing , Liao, Kai; Biesiada, Marek ; Fan, Xi-Long, 2019, ApJ
   

nCosmology:

1. Constraining cosmological parameters from strong lensing with DECIGO and B-DECIGO sources ,  Hou, Shaoqi; Fan, Xi-Long; Zhu, Zong-Hong, 2021， MNRAS
   

2. Constraining Cosmological Parameters in the FLRW Metric with Lensed GW+EM Signals, Li, Yufeng ; Fan, Xilong ; Gou, Lijun , 2019, ApJ
   

3. Precision cosmology from future lensed gravitational wave and electromagnetic signals , Liao, Kai ; Fan, Xi-Long ; Ding, Xuheng; Biesiada, Marek ; Zhu, Zong-Hong , 2017, Nature Communications
   

nRate:

1. Lensing rates of gravitational wave signals displaying beat patterns detectable by DECIGO and B-DECIGO, Hou, Shaoqi; Li, Pengbo ; Yu, Hai search by orcid ; Biesiada, Marek; Fan, Xi-Long; Kawamura, Seiji; Zhu, Zong-Hong, 2021, PRD
   

2. Inspiraling Double Compact Object Detection and Lensing Rate: Forecast for DECIGO and B-DECIGO, Piórkowska-Kurpas, Aleksandra ; Hou, Shaoqi ; Biesiada, Marek; Ding, Xuheng; Cao, Shuo; Fan, Xilong ; Kawamura, Seiji ; Zhu, Zong-Hong 2021, ApJ
   

nLens properties:

1. Gravitational wave interference via gravitational lensing: Measurements of luminosity distance, lens mass, and cosmological parameters , Hou, Shaoqi; Fan, Xi-Long;Liao, Kai; Zhu, Zong-Hong , PRD, 2020
   

2. Anomalies in Time Delays of Lensed Gravitational Waves and Dark Matter Substructures, Liao, Kai; Ding,; Biesiada, Marek; Fan, Xi-Long ; Zhu, Zong-Hong, 2018, ApJ
   

n Fundamental Physics :

1. Speed of Gravitational Waves from Strongly Lensed Gravitational Waves and Electromagnetic Signals , Fan, Xi-Long; Liao, Kai ; Biesiada, Marek ; Piórkowska-Kurpas, Aleksandra ; Zhu, Zong-Hong , 2017, PRL n n n n n