Research Group

Current members:

    Research Assistants: 

        YANG，Jia-Yi (杨佳祎)；JIANG, Chao-Feng (姜朝峰)

    Post-Doc: 

        CHEN, Di-Chang  (陈迪昌)

    Ph.D students

        SHIN, Ke-Ting (辛科霆)； ZHANG, Rui-Sheng (张睿晟)； SUN, Meng-Fei（孙梦菲）；AN, Dong-Sheng (安东升)

    Master students

        TU, Pei-Wei (涂培玮)；WU, Di （武迪)；ZHANG Xin-Yue (张欣悦）

    Undergraduates:

      A, Si-Ru (阿斯如)

Previous members:

        JIANG, Chao-Feng (姜朝峰) Ph.D in 2022, now research assitant in our group

        TANG, Wei (唐玮）research assistant in 2022, now graduate student at Imperial College London

        SU, Xiang-Ning (苏湘宁) Ph.D in 2021, now faculty in Shaoyang University, Hunan, China

        CHEN, Di-Chang  (陈迪昌)  Ph.D in 2021, now Post-Doc (LAMOST Fellow) in our group

        LI, Zi-Fan（李子凡）B.S. in 2022, now PhD student in PMO, China

        MO, Fan (莫凡) B.S. in 2022, now PhD student in PMO, China

        LIU, Shuai (刘帅)  B.S. in 2021, now PhD student in NAOC, China

        YANG, Jia-Yi (杨佳祎)  Ph.D in 2020, now research assitant in our group

        WANG, Zi-Xian (王梓先)  B.S. in 2019, now PhD student in University of Sydney, Austrilia 

        SHEN, Yu-Fu (申育夫)  B.S. in 2019, now PhD student in NAOC, China

        LIU, Zi-Bo (刘子博)  B.S. in 2018, now PhD student in Macau University of Science and Technology, China

        ZHANG, Ya-Peng  (张雅鹏)  B.S. in 2017, now PhD student in Leiden Observatory, Holland  

        ZHONG, Ze-Hao (钟泽昊)  B.S. in 2016, now PhD student in NAOC, China

        WANG, Xiao-YU (王啸宇)  B.S. in 2016, now PhD student in USTC, China

 Research Highlights

"Evolution of Hot Jupiters", In This Issue PNAS, Full paper published in PNAS 2023

"Overview of the LAMOST Survey in the First Decade", The Innovation,  2022

"LAMOST Helps in Planetary Census Across Time and Space" , Chinese Academy of Sciences press release, 2021

"Orbital Spacing Pattern of Planetary Systems with Super-Earths/sub-Neptunes", The Astronomical Journal, 2020

"Occurrence and Architecture of Planetary Systems with Super-Earths/sub-Neptunes" , The Astronomical Journal, 2020

"A power-law decay evolution scenario for polluted single white dwarfs", Nature Astronomy, 2019

"Introducing "Hoptunes", a New Class of Exoplanets", Kavlifoundation News, Full paper published in PNAS, 2018

"The Impact of Stars on Moons", Highlight in AAS NOVA, Full paper published in AJ, 2017

"Orbital Shape Distributions of Exoplanets" , BCAS,  Full paper published in PNAS, see also a story at IFL Science News "Lonely Planets Have Crazier Orbits Than Worlds With Companions", 2016

"NASA's Kepler Provides Insights on Enigmatic Planets", JPL news, Full paper published in ApJS, 2014

"41 New Transiting Planets in Kepler Field of View", NASA Kepler news, Full paper published in ApJS, 2012

"Astronomy Without A Telescope – A Snowball’s Chance", UNIVERSE TODAY news, Full paper published in ApJ, 2010

"Nearby Star System Could Support Earth-Like Planet" Space.com  news, Full paper published in ApJ, 2010

 Recent  Projects 

PAST: Planets Across Space and Time (“穿越”系列)

Over 5000 exoplanets have been discovered and thousands of candidates are yet to be confirmed. The discovered exoplanet population has expanded significantly from the solar neighborhood to a much larger area (orders of 1000 pc) in the Galaxy thanks to the improvement of observational technology. We are therefore entering a new era to study exoplanets in the Milky Way Galaxy. In the Galactic context, one of fundamental questions in studying exoplanets is: what are the differences in the properties of planetary systems at different positions (or compitions) of the Galaxy with different ages?  To address the question, in a series of papers from here on, we conduct statistical studies of planets at different positions in the Galaxy with different ages, a project that we dub Planets Across Space and Time (PAST). The answer to this question will provide insights on the formation and evolution of the ubiquitous and diverse exoplanets in different Galactic environments.

Publications：

Chen, D.-C., Xie, J.-W., Zhou, J.-L., et al. 2021. Planets Across Space and Time (PAST). I. Characterizing the Memberships of Galactic Components and Stellar Ages: Revisiting the Kinematic Methods and Applying to Planet Host Stars. The Astrophysical Journal 909. doi:10.3847/1538-4357/abd5be

Chen, D.-C., Yang, J.-Y., Xie, J.-W., et al. 2021. Planets Across Space and Time (PAST). II. Catalog and Analyses of the LAMOST-Gaia-Kepler Stellar Kinematic Properties. The Astronomical Journal 162. doi:10.3847/1538-3881/ac0f08

Chen, D.-C., Xie, J.~W., Zhou, J.-L., et al. 2022. Planets Across Space and Time (PAST). III. Morphology of the Planetary Radius Valley as a Function of Stellar Age and Metallicity in the Galactic Context Revealed by the LAMOST-Gaia-Kepler Sample. The Astronomical Journal 163. doi:10.3847/1538-3881/ac641f

Yang, J.-Y., Chen, D.-C., Xie, J.-W., et al. 2023. Planets Across Space and Time (PAST). IV. The Occurrence and Architecture of Kepler Planetary Systems as a Function of Kinematic Age Revealed by the LAMOST-Gaia-Kepler Sample. The Astronomical Journal 166. doi:10.3847/1538-3881/ad0368

Chen, D.-C., Xie, J.-W., Zhou, J.-L., et al. 2023. The evolution of hot Jupiters revealed by the age distribution of their host stars. Proceedings of the National Academy of Science 120. doi:10.1073/pnas.2304179120

POET: Planetary Orbit Eccentricity Trends (“诗人”系列)

Orbital eccentricity is one of the fundamental parameters in planetary dynamics, which provides crucial constraints on planet formation and evolution. Based on the fact that the solar system's planets have small orbital inclinations and eccentricities, Kant and Laplace in the 18th century put forward that the solar system formed from a nebula disk, laying the foundation for the modern theory of planet formation. Since the discovery of 51 Pegasi b in 1995, the number of exoplanets has increased dramatically. Furthermore, various surveys of spectroscopy and astrometry provide comprehensive characterizations for the host stars of exoplanets, allowing one to statistically study the relationship between stars and planets. Here we start a project, Planetary Orbit Eccentricity Trends (POET), to investigate how orbital eccentricities of planets depend on various stellar/planetary properties. 

Publications：

Xie, J.-W., Dong, S., Zhu, Z., et al. 2016, Exoplanet orbital eccentricities derived from LAMOST-Kepler analysis. Proceedings of the National Academy of Science, 113, 11431. doi:10.1073/pnas.1604692113

An, D.-S., Xie, J.-W., Dai, Y.-Z., Zhou, J.-L. 2023. Planetary Orbit Eccentricity Trends (POET). I. The Eccentricity-Metallicity Trend for Small Planets Revealed by the LAMOST-Gaia-Kepler Sample. The Astronomical Journal 165. doi:10.3847/1538-3881/acb533

DEB: Demographics of Exoplanets in Binaries (“新秀”系列)

Stars are thought to be commonly born and found in binary/multiple systems. Therefore, the demographics of exoplanets in binaries play a crucial role in statistically studying the whole exoplanet population in our Galaxy. Furthermore, the diverse orbital configurations and rich dynamics in planet-bearing binary systems provide valuable conditions to test various theories and models of planet formation and evolution. Here, we conduct a series of studies on the Demographics of Exoplanets in Binaries (DEB), aiming to find patterns from observations to deepen our understanding of planet formation and evolution.

Publications：

Su, X.-N., Xie, J.-W., Zhou, J.-L., et al. 2021. Demographics of Exoplanets in Binaries. I. Architecture of S-type Planetary Systems Revealed by the Radial-velocity Sample. The Astronomical Journal 162. doi:10.3847/1538-3881/ac2ba3