代表论著: |
1. Non-homogeneous solar models with metal enriched envelopes. J. Y. Yang, Y. Li, and H. Y. Xu, Science in China (Series A), 2001, Vol. 44, No. 2, 265—272.
2. Solar model: Element diffusion or metal-enhanced envelope? J.Y.Yang, Y.Li, and H.Y.Xu, 2001, A&A 366, 311—316.
3. Solar model with metal-enhanced convective envelope. J.Y.Yang, Y.Li and H.Y.Xu, 2001, IAU Symposium, Vol. 203, 46—49.
4. Testing Reynolds stress model in solar interior. J. Y. Yang, and Y. Li, 2006, IAU Symposium, Vol. 239, 373—375.
5. Testing turbulent convection theory in solar models II. Solar p-mode oscillations. J. Y. Yang, and Y. Li, 2007, MNRAS, 375, 403—414.
6. Quadrupolar dimmings during a partial halo coronal mass ejection event. J.Y. Yang, Y. C. Jiang, R. S. Zheng, J. C. Hong, Y. Bi, and L. Yang, 2011, Sol. Phys., 270, 551—559.
7. Sympathetic filament eruptions from a bipolar helmet streamer in the Sun. J. Y. Yang, Y. C. Jiang, R. S. Zheng, Y. Bi, J. C. Hong, and B. Yang, 2012, ApJ, 745, 9.
8. The surge-like eruption of a miniature filament. J. Y. Yang, Y. C. Jiang, D, Yang, Y. Bi, B. Yang, R. S. Zheng, and J. C. Hong, 2012, RAA, 12, 300—312.
9. An over-and-out halo coronal mass ejection driven by the full eruption of a kinked filament. J. Y. Yang, Y. C. Jiang, Y. Bi, H. D. Li, J. C. Hong, D. Yang, R. S. Zheng, and B. Yang, 2012, ApJ, 749, 12.
10. The asymmetrical eruption of a quiescent filament and associated halo CME. J. Y. Yang, Y. C. Jiang, B. Yang, R. Zheng, D. Yang, J. C. Hong, H. D. Li, and Y. Bi, 2012, Sol. Phys., 279, 115—126.
11. A blowout surge from the eruption of a miniature filament confined by large coronal loops. J. Y. Yang, Y. C. Jiang, B. Yang, J. C. Hong, D. Yang, Y. Bi, R. S. Zheng, and H. D. Li, 2012, NewA, 17, 732—738 |