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南科大公众号

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教职员工

教师系列研究系列博士后研究学者行政服务

叶生毅

教授

联系电话:0755-88018647

电子邮箱:yesy@sustech.edu.cn

办公地点:理学楼E5140

研究方向:空间物理,行星科学,空间探测

  • 简历
  • 研究领域
  • 教学
  • 论文专著

    南方科技大学教授。2000年毕业于清华大学物理系,获理学学士学位。2007年于美国达特茅斯学院获空间物理学博士学位。曾任职于美国爱荷华大学物理与天文系(博士后,自2009年起担任研究科学家)。主要从事NASA卡西尼任务(土星探测)及朱诺任务(木星探测)的数据分析研究工作。20199月加盟南方科技大学地球与空间科学系。已在Science, Geophysical Research Letters, Journal of Geophysical Research 等国际重要期刊上发表学术论文70余篇。曾担任NASA卡西尼数据分析项目CDAP部门首席科学家。2020年起担任第二届中国地球物理学会行星物理专业委员会副主任。目前主持中科院B类战略先导专项子课题一项、国自然面上项目两项,曾主持深圳市科技创新委员会稳定支持项目一项。研究领域: 空间物理,行星科学

     

    教育背景

    博士,(美)达特茅斯学院, 空间物理学,   2007

    学士,清华大学,物理学,2000

     

    工作经历

    2019-            教授                       南方科技大学                                                              

    2014-2019    副研究科学家       美国爱荷华大学

    2009-2014    助理研究科学家   美国爱荷华大学

    2007-2009    博士后研究学者   美国爱荷华大学  

     

    获奖及成就

    深圳市鹏城计划B类人才

    广东省珠江领军人才

    NASA卡西尼任务大结局科学团队成就奖

    NASA 卡西尼数据分析项目部门首席科学家

    喷气推进实验室(JPL)卡西尼任务大结局尘埃预警评估专家

    创建土星SLS5经度系统

    国际空间科学中心(ISSI) “Physics of Dust Impacts: Detection of Cosmic Dust by Spacecraft and its Influence on the Plasma Environment” 会议特邀成员

    国际空间科学中心(ISSI) “Rotational phenomena in Saturn's magnetosphere” 会议特邀成员


     

    专业服务

    学术期刊审稿人:GRL, JGR, Annales Geophysicae, Icarus, Radio Science, etc.

    NASA 太阳系研究项目特邀会评专家

    NASA 卡西尼数据分析项目函评专家

    COSPAR 会议召集人


    研究方向

    空间物理 (太阳风与行星磁层相互作用,行星射频辐射及等离子波,磁层电离层耦合)

    行星科学 (行星磁层周期调制现象,行星尘埃环)

    空间探测 (空间等离子体遥感及就位探测,空间尘埃探测)

    空间等离子体物理学 (ESS-5033)
    空间物理前沿 (ESS-5004)


    学术文章

    [73] Wu, S.,  Zarka, P.,  Lamy, L.,  Louis, C.,  Ye, S.,  Prangé, R., et al., 2023.  Rotational modulation of the high frequency limit of Saturn kilometric radiation. Journal of Geophysical Research: Space Physics,  128, e2023JA031287. https://doi.org/10.1029/2023JA031287


    [72] Gu, W. D., Yao, Z. H., Pan, D. X., Xu, Y., Zhang, B., Delamere, P. A., Fu, S.Y., Xie, L., Ye, S.Y., Chen, Y. N., Dunn, W. R., Wei, Y., 2023.  Hourly periodic variations of ultralow-frequency (ULF) waves in Jupiter's magnetosheath. Journal of Geophysical Research: Planets, 128, e2022JE007625. https://doi.org/10.1029/2022JE007625

    [71] 刘润逸, 诸峰, 王健, 叶生毅. 2023. 基于深度学习的空间尘埃碰撞实时自动检测. 地球物理学报, 66(2): 485-493, http://doi.org/10.6038/cjg2022Q0331


    [70] 吴伟仁,王赤,刘洋,秦礼萍,林巍,叶生毅,李晖,沈芳,张哲,2023.深空探测之前沿科学问题探析.科学通报,68(06):606-627.


    [69] Feng, E.,  Zhang, B.,  Yao, Z.,  Delamere, P. A.,  Zheng, Z.,  Brambles, O. J., et al. 2022.  Dynamic Jovian magnetosphere responses to enhanced solar wind ram pressure: Implications for auroral activities. Geophysical Research Letters,  49, e2022GL099858. https://doi.org/10.1029/2022GL099858


    [68] Wu, S.,  Zarka, P.,  Lamy, L.,  Taubenschuss, U.,  Cecconi, B.,  Ye, S., et al. 2022.  Observations of the first harmonic of Saturn Kilometric Radiation during Cassini's Grand Finale. Journal of Geophysical Research: Space Physics,  127, e2022JA030776. https://doi.org/10.1029/2022JA030776


    [67] Wu, S. Y.,  Ye, S. Y.,  Fischer, G.,  Taubenschuss, U.,  Jackman, C. M.,  O'Dwyer, E., et al. 2022.  Saturn Anomalous Myriametric radiation, a new type of Saturn radio emission revealed by Cassini. Geophysical Research Letters,  49, e2022GL099237. https://doi.org/10.1029/2022GL099237


    [66] Long, M., Cao, X., Gu, X., Ni, B., Qu, S., Ye, S., Yao, Z., Wu, S. and Xu, Y., 2022. Statistics of Water-group Band Ion Cyclotron Waves in Saturn's Inner Magnetosphere Based on 13 yr of Cassini Measurements. The Astrophysical Journal932(1), p.56. https://doi.org/10.3847/1538-4357/ac6bf0


    [65] Wu, S. Y., Ye, S. Y., Fischer, G., Jackman, C. M., Wang, J., Menietti, J. D., Cecconi, B., and Long, M. Y., 2022. Reflection and Refraction of the L‐O Mode 5 kHz Saturn Narrowband Emission by the Magnetosheath. Geophysical Research Letters49(5), e2021GL096990. https://doi.org/10.1029/2021GL096990


    [64] Hadid, L. Z., Shebanits, O., Wahlund, J. E., Morooka, M. W., Nagy, A. F., Farrell, W. M., Holmberg, M.K.G., Modolo, R., Persoon, A. M., Tseng, W. L., and Ye, S. Y., 2022. Ambipolar electrostatic field in negatively charged dusty plasma. Journal of Plasma Physics88(2). https://doi.org/10.1017/S0022377822000186


    [63] Xu, Y., Guo, R. L., Yao, Z. H., Pan, D. X., Dunn, W. R., Ye, S. Y., Zhang, B., Sun, Y. X., Wei, Y., and Coates, A. J.,2021. Properties of plasmoids observed in Saturn's dayside and nightside magnetodisc. Geophysical Research Letters48(24), e2021GL096765.


    [62] Guo, R.L., Yao, Z.H., Dunn, W.R., Palmaerts, B., Sergis, N., Grodent, D., Badman, S.V., Ye, S.Y., Pu, Z.Y., Mitchell, D.G. and Zhang, B.Z., 2021. A Rotating Azimuthally Distributed Auroral Current System on Saturn Revealed by the Cassini Spacecraft. The Astrophysical Journal Letters919(2), p.L25. https://doi.org/10.3847/2041-8213/ac26b5


    [61] He, Q., Liu, K., Ye, S., Liu, Q. and Deng, T., 2021. Investigation on unexpected variations of differential phase delay of Chang’E-3. Advances in Space Research. https://doi.org/10.1016/j.asr.2021.07.025


    [60] Wu,S.Y., Ye, S. Y., Fischer, G., Wang, J., Long, M.Y., Menietti, J. D., Cecconi, B., and Kurth, W.S., 2021. Statistical study on spatial distribution and polarization of Saturn narrowband emissions, Astrophys. J., https://doi.org/10.3847/1538-4357/ac0af1


    [59] Persoon, A. M., Kurth, W. S., Gurnett, D. A., Groene, J. B., Smith, H. T., Perry, M. E., et al., 2020. Evidence of electron density enhancements in the post‐apoapsis sector of Enceladus' orbit. Journal of Geophysical Research: Space Physics, 125, e2019JA027768. https://doi.org/10.1029/2019JA027768


    [58] Ye, S.Y., Averkamp, T. F., Kurth, W. S., Brennan, M., Bolton, S., Connerney, J. E. P., and Joergensen, J. L., 2020. Juno Waves detection of dust impacts near Jupiter. Journal of Geophysical Research: Planets, 124, e2019JE006367. https://doi.org/10.1029/2019JE006367


    [57] Nouzák, L., Sternovsky, Z., Horányi, M., Hsu, S., Pavlů, J., Shen, M.-H., and Ye, S.Y., 2020. Magnetic field effect on antenna signals induced by dust particle impacts, Journal of Geophysical Research. https://doi.org/10.1029/2019JA027245


    [56] Carbary, J.F., Mitchell, D.G. and Ye, S.Y., 2019. Energetic Electron Patterns in the New SLS5 Longitude System, Journal of Geophysical Research. https://doi.org/10.1029/2019JA027036


    [55] Vaverka, J., Pavlu, J., Nouzak, L, Safrankova, J., Nemecek, Z., Mann, I., Ye, S.Y. and Lindqvist, P. -A., 2019. One-year analysis of dust impact-like events onto the MMS spacecraft, Journal of Geophysical Research. https://doi.org/10.1029/2019JA027035


    [54] Ye, S. Y., Vaverka, J., Nouzak, L., Sternovsky, Z., Zaslavsky, A., Pavlu, J., Mann, I., Hsu, H.-W., Averkamp, T. F., Sulaiman, A. H., Pisa, D., Hospodarsky, G. B., Kurth, W. S. and Horanyi, M., 2019. Understanding Cassini RPWS Antenna Signals Triggered by Dust Impacts, Geophysical Research Letters, 46(13), pp. 10941-10950, https://doi.org/10.1029/2019GL084150


    [53] Mann, I., Nouzák, L., Vaverka, J., Antonsen, T., Fredriksen, Å, Issautier, K., Malaspina, D., Meyer-Vernet, N., Pavlů, J., Sternovsky, Z., Stude, J., Ye, S. Y., Zaslavsky, A., 2019. Dust observations with antenna measurements and its prospects for observations with Parker Solar Probe and Solar Orbiter, Annales Geophysicae. https://doi.org/10.5194/angeo-37-1121-2019


    [52] Yao, Z.H., Grodent, D., Kurth, W.S., Clark, G., Mauk, B.H., Kimura, T., Bonfond, B., Ye, S.Y., Lui, A.T., Radioti, A., Palmaerts, B., Dunn, W. R., Ray, L.C., Bagenal, F., Badman, S.V., Rae, I.J., Guo, R.L., Pu, Z.Y., Gérard, J.-C., Yoshioka, K., Nichols, J.D., Connerney, J.E.P., Bolton, S. and Levin, S. M., 2019. On the relation between Jovian aurorae and the loading/unloading of the magnetic flux: simultaneous measurements from Juno, HST and Hisaki. Geophysical Research Letters. https://doi.org/10.1029/2019GL084201


    [51] Sulaiman, A. H., Farrell, W. M., Ye, S.Y., Kurth, W. S., Gurnett, D. A., Hospodarsky, G. B., Menietti, J. D., Píša, D., Hunt, G. J., Agiwal, O. and Dougherty, M. K., 2019. A Persistent, Large‐Scale, and Ordered Electrodynamic Connection Between Saturn and Its Main Rings, Geophysical Research Letters46(13), pp. 7166-7172. https://doi.org/10.1029/2019GL083541


    [50] Chancia, R.O., Hedman, M.M., Cowley, S.W.H., Provan, G. and Ye, S.Y., 2019. Seasonal structures in Saturn's dusty Roche Division are tied to periodicities of the planet's magnetosphere. Icarus. 330, pp. 230 -255.https://doi.org/10.1016/j.icarus.2019.04.012


    [49] Azari, A.R., Jia, X., Liemohn, M.W., Hospodarsky, G.B., Provan, G., Ye, S.Y., Cowley, S.W.H., Paranicas, C., Sergis, N., Rymer, A.M., Thomsen, M.F. and Mitchell, D.G., 2019. Are Saturn's Interchange Injections Organized by Rotational Longitude? Journal of Geophysical Research: Space Physics, 124(3), pp.1806-1822. https://doi.org/10.1029/2018JA026196


    [48] Yao, Z.H., Radioti, A., Grodent, D., Ray, L.C., Palmaerts, B., Sergis, N., Dialynas, K., Coates, A.J., Arridge, C.S., Roussos, E. and Badman, S.V., Ye, S.Y., Gérard, G.-C., Delamere, P. A., Guo, R. L., Pu, Z.Y., Waite, J. H., Krupp, N.,  Mitchell, D.G. and Dougherty, M.K., 2018. Recurrent magnetic dipolarization at Saturn: revealed by Cassini. Journal of Geophysical Research: Space Physics123(10), pp.8502-8517. https://doi.org/10.1029/2018JA025837


    [47] Ye, S.Y., Kurth, W.S., Hospodarsky, G.B., Persoon, A.M., Sulaiman, A.H., Gurnett, D.A., Morooka, M., Wahlund, J.E., Hsu, H.W., Sternovsky, Z. and Wang, X., 2018. Dust Observations by the Radio and Plasma Wave Science Instrument During Cassini's Grand Finale. Geophysical Research Letters45(19), pp.10-101. https://doi.org/10.1029/2018GL078059


    [46] Hsu, H.W., Schmidt, J., Kempf, S., Postberg, F., Moragas-Klostermeyer, G., Seiß, M., Hoffmann, H., Burton, M., Ye, S., Kurth, W.S. and Horányi, M., 2018. In situ collection of dust grains falling from Saturn’s rings into its atmosphere. Science362(6410), p.eaat3185. https://doi.org/10.1126/science.aat3185


    [45] Ye, S.Y., Fischer, G., Kurth, W.S., Menietti, J.D. and Gurnett, D.A., 2018. An SLS5 longitude system based on the rotational modulation of Saturn radio emissions. Geophysical Research Letters45(15), pp.7297-7305. https://doi.org/10.1029/2018GL077976


    [44] Ye, S.Y., Kurth, W.S., Hospodarsky, G.B., Persoon, A.M., Gurnett, D.A., Morooka, M., Wahlund, J.E., Hsu, H.W., Seiß, M. and Srama, R., 2018. Cassini RPWS Dust Observation Near the Janus/Epimetheus Orbit. Journal of Geophysical Research: Space Physics123(6), pp.4952-4960. https://doi.org/10.1029/2017JA025112


    [43] Sulaiman, A.H., Kurth, W.S., Hospodarsky, G.B., Averkamp, T.F., Ye, S.Y., Menietti, J.D., Farrell, W.M., Gurnett, D.A., Persoon, A.M., Dougherty, M.K. and Hunt, G.J., 2018. Enceladus auroral hiss emissions during Cassini's Grand Finale. Geophysical Research Letters45(15), pp.7347-7353. https://doi.org/10.1029/2018GL078130


    [42] Menietti, J.D., Averkamp, T.F., Ye, S.Y., Persoon, A.M., Morooka, M.W., Groene, J.B. and Kurth, W.S., 2018. Extended Survey of Saturn Z‐Mode Wave Intensity Through Cassini's Final Orbits. Geophysical Research Letters45(15), pp.7330-7336. https://doi.org/10.1029/2018GL079287


    [41] Sulaiman, A.H., Kurth, W.S., Hospodarsky, G.B., Averkamp, T.F., Persoon, A.M., Menietti, J.D., Ye, S.Y., Gurnett, D.A., Píša, D., Farrell, W.M. and Dougherty, M.K., 2018. Auroral hiss emissions during Cassini's Grand Finale: Diverse electrodynamic interactions between Saturn and its ringsGeophysical Research Letters45(14), 6782–6789. https://doi.org/10.1029/2018GL077875


    [40] Menietti, J.D., Averkamp, T.F., Ye, S.Y., Sulaiman, A.H., Morooka, M.W., Persoon, A.M., Hospodarsky, G.B., Kurth, W.S., Gurnett, D.A. and Wahlund, J.E., 2018. Analysis of intense Z‐mode emission observed during the Cassini proximal orbitsGeophysical Research Letters45, 6766–6772. https://doi.org/10.1002/2018GL077354


    [39] Morooka, M.W., Wahlund, J.E., Andrews, D.J., Persoon, A.M., Ye, S.Y., Kurth, W.S., Gurnett, D.A. and Farrell, W.M., 2018. The Dusty plasma disk around the Janus/Epimetheus ring. Journal of Geophysical Research: Space Physics123(6), pp.4668-4678. https://doi.org/10.1002/2017JA024917

     

    [38] Hedman, M.M., Dhingra, D., Nicholson, P.D., Hansen, C.J., Portyankina, G., Ye, S. and Dong, Y., 2018. Spatial Variations in the Dust-to-Gas Ratio of Enceladus’ Plume. Icarus. Vol 305, p123-138, https://doi.org/10.1016/j.icarus.2018.01.006


    [37] Ye, S.Y., Fischer, G., Kurth, W.S., Menietti, J.D. and Gurnett, D.A., 2017. Rotational modulation of Saturn Kilometric Radiation, narrrowband emission and auroral hiss. Planetary Radio Emissions VIII, pp. 191-204. https://doi.org/10.1553/PRE8s191


    [36] Kurth, W.S., Imai, M., Hospodarsky, G.B., Gurnett, D.A., Tetrick, S.S., Ye, S.Y., Bolton, S.J., Connerney, J.E.P. and Levin, S.M., 2017. First observations near Jupiter by the Juno Waves investigation. Planetary Radio Emissions VIII, pp. 1-12. https://doi.org/10.1553/PRE8s1


    [35] Sulaiman, A. H.Kurth, W. S.Persoon, A. M.Menietti, J. D.Farrell, W. M.Ye, S.Y., Hospodarsky, G. B., Gurnett, D. A., Hadid, L. Z. (2017). Intense harmonic emissions observed in Saturn's ionosphereGeophysical Research Letters44(24), pp.12049-12056. https://doi.org/10.1002/2017GL076184


    [34] Wahlund, J.E., Morooka, M.W., Hadid, L.Z., Persoon, A.M., Farrell, W.M., Gurnett, D.A., Hospodarsky, G., Kurth, W.S., Ye, S.Y., Andrews, D.J. and Edberg, N.J., 2018. In situ measurements of Saturn’s ionosphere show that it is dynamic and interacts with the rings. Science359(6371), pp.66-68. https://doi.org/10.1126/science.aao4134


    [33] Nouzák, L., Hsu, S., Malaspina, D., Thayer, F.M., Ye, S.Y., Pavlů, J., Němeček, Z., Šafránková, J. and Sternovsky, Z., 2018. Laboratory modeling of dust impact detection by the Cassini spacecraft. Planetary and Space Science156, pp.85-91. https://doi.org/10.1016/j.pss.2017.11.014


    [32] Krupp, N., Roussos, E., Paranicas, C., Mitchell, D.G., Kollmann, P., Ye, S., Kurth, W.S., Khurana, K.K., Perryman, R., Waite, H. and Srama, R., 2018. Energetic electron measurements near Enceladus by Cassini during 2005–2015. Icarus306, pp.256-274. https://doi.org/10.1016/j.icarus.2017.10.022


    [31] Menietti, J.D., Averkamp, T.F., Kurth, W.S., Ye, S.Y., Gurnett, D.A. and Cecconi, B., 2017. Survey of Saturn electrostatic cyclotron harmonic wave intensity. Journal of Geophysical Research: Space Physics122(8), pp.8214-8227. https://doi.org/10.1002/2017JA023929


    [30] Menietti, J.D., Yoon, P.H., Písa, D., Ye, S.Y., Santolík, O., Arridge, C.S., Gurnett, D.A. and Coates, A.J., 2016. Source region and growth analysis of narrowband Z‐mode emission at Saturn. Journal of Geophysical Research: Space Physics121(12), pp. 11929-11942. https://doi.org/10.1002/2016JA022913


    [29] Ye, S.Y., Kurth, W.S., Hospodarsky, G.B., Averkamp, T.F. and Gurnett, D.A., 2016. Dust detection in space using the monopole and dipole electric field antennas. Journal of Geophysical Research: Space Physics121(12), pp. 11964-11972. https://doi.org/10.1002/2016JA023266


    [28] Ye, S.Y., Fischer, G., Kurth, W.S., Menietti, J.D. and Gurnett, D.A., 2016. Rotational modulation of Saturn's radio emissions after equinox. Journal of Geophysical Research: Space Physics121(12). pp. 11714-11728. https://doi.org/10.1002/2016JA023281


    [27] Ye, S.Y., Gurnett, D.A. and Kurth, W.S., 2016. In-situ measurements of Saturn's dusty rings based on dust impact signals detected by Cassini RPWS. Icarus279, pp.51-61. https://doi.org/10.1016/j.icarus.2016.05.006


    [26] Engelhardt, I.A.D., Wahlund, J.E., Andrews, D.J., Eriksson, A.I., Ye, S., Kurth, W.S., Gurnett, D.A., Morooka, M.W., Farrell, W.M. and Dougherty, M.K., 2015. Plasma regions, charged dust and field-aligned currents near Enceladus. Planetary and Space Science, 117, pp.453-469. https://doi.org/10.1016/j.pss.2015.09.010


    [25] Menietti, J.D., Averkamp, T.F., Ye, S.Y., Horne, R.B., Woodfield, E.E., Shprits, Y.Y., Gurnett, D.A., Persoon, A.M. and Wahlund, J.E., 2015. Survey of Saturn Z‐mode emission. Journal of Geophysical Research: Space Physics120(8), pp.6176-6187. https://doi.org/10.1002/2015JA021426


    [24] Fischer, G., Gurnett, D.A., Kurth, W.S., Ye, S.Y. and Groene, J.B., 2015. Saturn kilometric radiation periodicity after equinox. Icarus254, pp.72-91. https://doi.org/10.1016/j.icarus.2015.03.014


    [23] Dong, Y., Hill, T.W. and Ye, S.Y., 2015. Characteristics of ice grains in the Enceladus plume from Cassini observations. Journal of Geophysical Research: Space Physics120(2), pp.915-937. https://doi.org/10.1002/2014JA020288


    [22] Fischer, G., Ye, S.Y., Groener, J.B., Ingersoll, A.P., Sayanagi, K.M., Menietti, J.D., Kurth, W.S. and Gurnett, D.A., 2014, December. A possible influence of the Great White Spot on Saturn kilometric radiation periodicity. In Annales Geophysicae(Vol. 32, No. 12, pp. 1463-1476). European Geosciences Union. https://doi.org/10.5194/angeo-32-1463-2014


    [21] Ye, S.Y., Gurnett, D.A., Kurth, W.S., Averkamp, T.F., Kempf, S., Hsu, H.W., Srama, R. and Grün, E., 2014. Properties of dust particles near Saturn inferred from voltage pulses induced by dust impacts on Cassini spacecraft. Journal of Geophysical Research: Space Physics119(8), pp.6294-6312. https://doi.org/10.1002/2014JA020024


    [20] Ye, S.Y., Gurnett, D.A., Kurth, W.S., Averkamp, T.F., Morooka, M., Sakai, S. and Wahlund, J.E., 2014. Electron density inside Enceladus plume inferred from plasma oscillations excited by dust impacts. Journal of Geophysical Research: Space Physics119(5), pp.3373-3380. https://doi.org/10.1002/2014JA019861


    [19] Gu, X., Thorne, R.M., Ni, B. and Ye, S.Y., 2013. Resonant diffusion of energetic electrons by narrowband Z mode waves in Saturn's inner magnetosphere. Geophysical Research Letters40(2), pp.255-261. https://doi.org/10.1029/2012GL054330


    [18] Ye, S.Y., Gurnett, D.A., Menietti, J.D., Kurth, W.S., Fischer, G., Schippers, P. and Hospodarsky, G.B., 2012. Cassini observation of Jovian anomalous continuum radiation. Journal of Geophysical Research: Space Physics117(A4). https://doi.org/10.1029/2011JA017135 


    [17] Menietti, J.D., Mutel, R.L., Schippers, P., Ye, S.Y., Gurnett, D.A. and Lamy, L., 2011. Analysis of Saturn kilometric radiation near a source center. Journal of Geophysical Research: Space Physics116(A12). https://doi.org/10.1029/2011JA017056


    [16] Ye, S.Y., Fischer, G., Menietti, J.D., Wang, Z., Gurnett, D.A. and Kurth, W.S., 2011. An Overview of Saturn Narrowband Radio Emissions Observed by Cassini RPWS. Planetary, Solar and Heliospheric Radio Emissions (PRE VII), pp.99-113. https://doi.org/10.1553/PRE7s99


    [15] Gurnett, D.A., Groene, J.B., Averkamp, T.F., Kurth, W.S., Ye, S.Y. and Fischer, G., 2011. An SLS4 longitude system based on a tracking filter analysis of the rotational modulation of Saturn kilometric radiation. Planetary Radio Emissions VII, pp.51-64. https://doi.org/10.1553/PRE7s51


    [14] Menietti, J.D., Mutel, R.L., Schippers, P., Ye, S.Y., Santolik, O., Kurth, W.S., Gurnett, D.A., Lamy, L. and Cecconi, B., 2011. Saturn kilometric radiation near a source center on day 73, 2008. Planetary Radio Emissions VII, pp.87-95. https://doi.org/10.1553/PRE7s87


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    [12] Ye, S.Y., Gurnett, D.A., Groene, J.B., Wang, Z. and Kurth, W.S., 2010. Dual periodicities in the rotational modulation of Saturn narrowband emissions. Journal of Geophysical Research: Space Physics115(A12). https://doi.org/10.1029/2010JA015780


    [11] Ye, S.Y., Menietti, J.D., Fischer, G., Wang, Z., Cecconi, B., Gurnett, D.A. and Kurth, W.S., 2010. Z mode waves as the source of Saturn narrowband radio emissions. Journal of Geophysical Research: Space Physics115(A8). https://doi.org/10.1029/2009JA015167


    [10] Wang, Z., Gurnett, D.A., Fischer, G., Ye, S.Y., Kurth, W.S., Mitchell, D.G., Leisner, J.S. and Russell, C.T., 2010. Cassini observations of narrowband radio emissions in Saturn's magnetosphere. Journal of Geophysical Research: Space Physics115(A6). https://doi.org/10.1029/2009JA014847


    [9] Menietti, J.D., Yoon, P.H., Ye, S.Y., Cecconi, B. and Rymer, A.M., 2010. Source mechanism of Saturn narrowband emission. Annales Geophysicae (09927689)28(4),  pp.1013-1021. https://doi.org/10.5194/angeo-28-1013-2010


    [8] Menietti, J.D., Ye, S.Y., Piker, C.W. and Cecconi, B., 2010. The influence of Titan on Saturn kilometric radiation. Annales Geophysicae (09927689)28(2), pp.395-406. https://doi.org/10.5194/angeo-28-395-2010


    [7] Ye, S.Y., Gurnett, D.A., Fischer, G., Cecconi, B., Menietti, J.D., Kurth, W.S., Wang, Z., Hospodarsky, G.B., Zarka, P. and Lecacheux, A., 2009. Source locations of narrowband radio emissions detected at Saturn. Journal of Geophysical Research: Space Physics114(A6). https://doi.org/10.1029/2008JA013855


    [6] Fischer, G., Cecconi, B., Lamy, L., Ye, S.Y., Taubenschuss, U., Macher, W., Zarka, P., Kurth, W.S. and Gurnett, D.A., 2009. Elliptical polarization of Saturn kilometric radiation observed from high latitudes. Journal of Geophysical Research: Space Physics114(A8). https://doi.org/10.1029/2009JA014176


    [5] Menietti, J.D., Ye, S.Y., Yoon, P.H., Santolik, O., Rymer, A.M., Gurnett, D.A. and Coates, A.J., 2009. Analysis of narrowband emission observed in the Saturn magnetosphere. Journal of Geophysical Research: Space Physics114(A6). https://doi.org/10.1029/2008JA013982


    [4] Ye, S. and LaBelle, J., 2008. Ground based observations of low frequency auroral hiss fine structure. Journal of Geophysical Research: Space Physics113(A1). https://doi.org/10.1029/2007JA012473


    [3] Yoon, P.H., Ye, S., LaBelle, J., Weatherwax, A.T. and Menietti, J.D., 2007. Methods in the study of discrete upper hybrid waves. Journal of Geophysical Research: Space Physics112(A11). https://doi.org/10.1029/2007JA012683


    [2] Ye, S., LaBelle, J., Yoon, P.H. and Weatherwax, A.T., 2007. Experimental tests of the eigenmode theory of auroral roar fine structure and its application to remote sensing. Journal of Geophysical Research: Space Physics112(A12). https://doi.org/10.1029/2007JA012525


    [1] Ye, S., LaBelle, J. and Weatherwax, A.T., 2006. Further study of flickering auroral roar emission: 1. South Pole observations. Journal of Geophysical Research: Space Physics111(A7). https://doi.org/10.1029/2005JA011271



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