Research
The team of Space Science and Aerospace Engineering was established in 2019 under the Center for Integrated Research on Space Science, Astronomy, and Physics (CIRs) of the institute. The team/center, as an essential component of the university’s space-science discipline, collaborates closely with the Institute of Space Science and the School of Space Science and Technology. Leveraging Qingdao’s geographical advantages, the team focuses on advancing detection technologies and equipment for terrestrial auroras, space debris, and space plasma research. It has undertaken key national projects, including the National Major Scientific Research Instrument Development Project, the National Key Research and Development Program, and the "Youth Excellence Program for XXX Innovation” of Shandong University, the team successfully developed the optical payloads for the AIRSAT Constellation 06/07 satellites, which were launched in March 2025.
Publications:
1. Plasma Emission Induced by Electron Beams in Weakly Magnetized Plasmas, ASTROPHYSICAL JOURNAL LETTERS
2. Unveiling the Mechanism for the Rapid Acceleration Phase in a Solar Eruption, ASTROPHYSICAL JOURNAL LETTERS
3. PIC Simulation of Double Plasma Resonance and Zebra Pattern of Solar Radio Bursts, ASTROPHYSICAL JOURNAL LETTERS
4. Plasma Emission Induced by Electron Cyclotron Maser Instability in Solar Plasmas with a Large Ratio of Plasma Frequency to Gyrofrequency, ASTROPHYSICAL JOURNAL LETTERS
5. Identification of reaction wheel assembly disturbances based on variable modal frequencies, MECHANICAL SYSTEMS AND SIGNAL PROCESSING
6. High-harmonic Plasma Emission Induced by Electron Beams in Weakly Magnetized Plasmas,ASTROPHYSICAL JOURNAL
7. Harmonic Electron Cyclotron Maser Emission along the Coronal Loop, ASTROPHYSICAL JOURNAL
8. Excitation of extraordinary modes inside the source of Saturn's kilometric radiation, ASTROPHYSICAL JOURNAL
9. A lightweight neural network compatible with high-correlation broadband optical filters in computational spectroscopy, OPTICS AND LASERS IN ENGINEERING
10. Study of modal parameter estimation of time-varying mechanical system in time-frequency domain based on output-only method, JOURNAL OF SOUND AND VIBRATION
11. A lightweight computational spectrometer enabled by learned high-correlation optical filters, OPTICS EXPRESS
12. A lightweight computational spectrometer enabled by learned high-correlation optical filters, OPTICS EXPRESS
13. A novel identification method for micro-vibration analysis of reaction wheel assembly, ACTA ASTRONAUTICA
14. Field Line Curvature (FLC) Scattering in the Dayside Off-Equatorial Minima Regions, JOURNAL OF GEOPHYSICAL RESEARCH-SPACE PHYSICS
15. Test Particle Simulations of the Butterfly Distribution of Relativistic Electrons in Magnetic Dips, JOURNAL OF GEOPHYSICAL RESEARCH-SPACE PHYSICS
16. Expected EMIC Wave Generation and Unexpected MS Wave Disruption in a Magnetic Dip, JOURNAL OF GEOPHYSICAL RESEARCH-SPACE PHYSICS
17. Tuned mass damper on spacecraft reaction wheel assembly, APPLIED ACOUSTICS
Contact Person:Yansong Wang E-mail: wangyansong@sdu.edu.cn