Discussion of projects:
Last Name | First Name | University/institution | Project title | Project briefing/idea | |
---|---|---|---|---|---|
Miao | Haixing | University of Birmingham | haixing@star.sr.bham.ac.uk | kHz Gravitational-wave detection | Gravitational waves emitted during the (post-)merger of binary neutron stars encode rich physics of dense nuclear matters under extreme conditions. Detecting them require high detector sensitivity at kHz, which is beyond what we can achieve with current detectors. My current interest is studying ideas for improving kHz sensitivity and working with instrumentalists to demonstrate them in prototypes, e.g., the one to be built in Beijing Normal University and also Gingin High-power Facility in Australia. |
Wang | Yan | Huazhong University of Science and Technology | ywang12@hust.edu.cn | Gravitational-wave data analysis for space-borne laser interferometers | Future space-borne GW detectors, such as LISA, TianQin and etc., will face major data analysis challenges, one of them is to resolve multiple sources of different kinds from the 'whole enchilada' data. This project is aimed to first build data analysis algorithms and pipelines that can tackle the data analysis problem for each source category and then solve the 'global-fit' problem using the state-of-art statistical methods and tools. |
Hu | Yi-Ming | Sun Yat-sen University | huyiming@mail.sysu.edu.cn | Science case and data analysis for TianQin | Science cases for TianQin: compute rate/parameter estimation precision of Galactic compact binaries; stellar mass compact binaries inspiarls; extreme mass ratio inspirals; massive black hole binaries coalesces; stochastic gravitational wave background; gravitational wave cosmology. Data analysis pipelines for aforementioned sources: detection pipeline construction; parameter estimation pipeline construction |
XXX | XXX | University XX | xxxx@xxxx | XXX | XXXX |