人员简介-崔峻

崔峻、男、北京大学物理系学士、中国科学院国家天文台硕士、美国亚利桑那大学天文系博士、英国帝国理工大学物理系博士后。2010年回国,先后为中国科学院国家天文台百人计划研究员、行星物理创新团组首席科学家、中国科学院月球与深空探测重点实验室副主任、中国科学院空间科学创新研究院特聘研究员、中国科学院比较行星学卓越创新中心特聘研究员、中山大学大气科学学院教授、国家自然科学基金委杰出青年基金获得者。主要从事行星中高层大气与电离层方向的研究,在类地行星电离层结构与形成、类地行星大气逃逸等领域做了大量的工作,在国际学术界被普遍认可。多年来广泛参与国内外重大深空探测项目,曾获欧洲空间局颁发的金星快车杰出贡献奖。迄今为止在Journal of Geophysical ResearchGeophysical Research LettersAstrophysical Journal Letters等国际主流SCI期刊发表论文60余篇,引文1500余次。

 

 

 

代表性论著:

  1. Statistical properties of Ultraluminous IRAS galaxies from an HST imaging survey, Cui, J.*, Xia, X.-Y., Deng, Z.-G., Mao, S., and Zou, Z.-L., 2001, Astron. J., 122, 63-82
  2. Molecular hydrogen in the damped Lyα absorber of Q1331+170, Cui, J.*, Bechtold, J., Ge, J., and Meyer, D. M., 2005, Astrophys. J., 633, 649-663
  3. Distribution and escape of molecular hydrogen in Titan’s thermosphere and exosphere, Cui, J.*, Yelle, R. V., and Volk, K., 2008, J. Geophys. Res., 113, E10004
  4. Analysis of Titan’s upper atmosphere from Cassini Ion Neutral Mass Spectrometer measurements, Cui, J.*, Yelle, R. V., Vuitton, V., Waite Jr., J. H., Kasprzak, W. T., Gell, D., Niemann, H. B., Müller-Wodarg, I. C. F., Borggren, N., Fletcher, G. G., Patrick, E. L., Raaen, E., and Magee, B. A., 2009, Icarus, 200, 581-615
  5. Diurnal variations of Titan’s ionosphere, Cui, J.*, Galand, M., Yelle, R. V., Vuitton, V., Wahlund, J.-E., Lavvas, P. P., Müller-Wodarg, I. C. F., Cravens, T. E., Kaprzak, W. T., and Waite Jr., J. H., 2009, J. Geophys. Res., 114, A06310
  6. Ion transport in Titan’s upper atmosphere, Cui, J.*, Galand, M., Yelle, R. V., Wahlund, J.-E., Ågren, K., Waite Jr., J. H., and Dougherty, M. K., 2010, J. Geophys. Res., 115, A06314
  7. Suprathermal electron spectra in the Venus ionosphere, Cui, J.*, Galand, M., Coates, A. J., Zhang, T.-L., and Müller-Wodarg, I. C. F., 2011, J. Geophys. Res., 116, A04321
  8. The implications of the H2 variability in Titan’s exosphere, Cui, J.*, Yelle, R. V., Müller-Wodarg, I. C. F., Lavvas, P. P., and Galand, M., 2011, J. Geophys. Res., 116, A11324
  9. The CH4 structure in Titan’s upper atmosphere revisited, Cui, J.*, Yelle, R. V., Strobel, D. F., Müller-Wodarg, I. C. F., Snowden, D. S., Koskinen, T. T., and Galand, M., 2012, J. Geophys. Res., 117, E11006
  10. Compositional effects in Titan’s thermospheric gravity waves, Cui, J.*, Lian, Y., and Müller-Wodarg, I. C. F., 2013, Geophys. Res. Lett., 40, 43-47, doi:10.1029/2012GL054621
  11. Density waves in Titan’s upper atmosphere, Cui, J.*, Yelle, R. V., Li, T., Snowden, D. S., and Müller-Wodarg, I. C. F., 2014, J. Geophys. Res., 119, 490-518
  12. The electron thermal structure in the dayside Martian ionosphere implied by the MGS radio occultation data, Cui, J.*, Galand, M., Zhang, S.-J., Vigren, E., and Zou, H., 2015, J. Geophys. Res., 120, 278-286
  13. Day-to-night transport in the Martian ionosphere: Implications from total electron content measurements, Cui, J.*, Galand, M., Yelle, R. V., Wei, Y., and Zhang, S.-J., 2015, J. Geophys. Res., 120, 2333-2346
  14. The variability of HCN in Titan’s upper atmosphere implied by the Cassini Ion Neutral Mass Spectrometer measurements, Cui, J.*, Cao, Y.-T., Lavvas, P. P., and Koskinen, T. T., 2016, Astrophys. J. Lett., 826, L5
  15. The structure of Titan’s N2 and CH4 coronae, Jiang, F.-Y., Cui, J.*, and Xu, J.-Y., 2017, Astron. J., 154, 271
  16. The impact of crustal magnetic fields on the thermal structure of the Martian upper atmosphere, Cui, J. *, Yelle, R. V., Zhao, L.-L., Stone, S., Jiang, F.-Y., Cao, Y.-T., Yao, M.-J., Koskinen, T. T., and Wei, Y., 2018, Astrophys. J. Lett., 853, L33
  17. Ionization efficiency in the dayside Martian upper atmosphere, Cui, J. *, Xu, S.-S., Wu, X.-S., Wang, X.-D., Wellbrock, A., Nordheim, T. A., Wang, W.-R., and Wei, Y., 2018, Astrophys. J. Lett., 857, L2
  18. Photochemical escape of atomic C and N on Mars: Clues from a multi-instrument MAVEN dataset, Cui, J. *, Wu, X.-S., Gu, H., Jiang, F.-Y., and Wei, Y., 2019, Astron. Astrophys., 621, A23
  19. A test particle Monte Carlo investigation of the CH4 torus around Saturn, Niu, D.-D., Cui, J. *, Gu, H., Dong, C.-Y., Zhou, L.-Y., Wellbrock, A., Jiang, F.-Y., and Xu, X.-J., 2019, Astron. J., 157, 15
  20. Monte Carlo calculations of the atmospheric sputtering yields on Titan, Gu, H., Cui, J. *, Niu, D.-D., Wellbrock, A., Tseng, W.-L., and Xu, X.-J., 2019, Astron. Astrophys., 623, A18
  21. The morphology of the topside Martian ionosphere: Implications on bulk ion flow, Wu, X.-S., Cui, J. *, Xu, S.-S., Lillis, R.J., Yelle, R.V., Edberg, N.J.T., Vigren, E., Rong, Z.-J., Fan, K., Guo, J.-P., Cao, Y.-T., Jiang, F.-Y., Wei, Y., and Mitchell, D.L., 2019, J. Geophys. Res., 124, 734
  22. Species-dependent ion escape on Titan, Jiang, F.-Y., Cui, J. *, Xu, J.-Y., and Wei, Y., 2019, Earth Planet. Phys., in press
  23. The variability of the Martian ionosphere from the MAVEN radio occultation science experiment, Yao, M.-J., Cui, J. *, Wu, X.-S., Huang, Y.-Y., and Wang, W.-R., 2019, Earth Planet. Phys., in press
  24. Evaluating local ionization balance in the nightside Martian upper atmosphere during MAVEN Deep Dip campaigns, Cui, J. *, Cao, Y.-T., Wu, X.-S., Xu, S.-S., Yelle, R.V., Stone, S., Vigren, E., Edberg, N.J.T., Shen, C.-L., He, F., and Wei, Y., 2019, Astrophys. J. Lett., in press
  25. Structural variability of the cross-terminator Martian ionosphere: Implications on plasma sources, Cao, Y.-T., Cui, J. *, Wu, X.-S., and Wei, Y., 2019, J. Geophys. Res., in press