罗德海

中国科学院大气物理研究所

浏览次数

68

收藏次数

0

接洽次数

0

  • 罗德海
  • 高级工程师
简历:

罗德海,男, 1963年生,博士,研究员(二级),博士生导师

现主要从事大气动力学,海洋动力学和气候动力学的研究工作,在国内外刊物上发表论文数十篇,专著两部. 通过一定的数学技巧巧妙地将行星尺度波与天气尺度波联系起来,在国际上创造性地提出和建立了大气阻塞和北大西洋涛动(NAO)形成的行星尺度波与天气尺度波相互作用新的解析理论模式,并在国际顶尖刊物上发表了一系列论文(Quart. J. Royal Meteoro. Soc.,2005a, J. Atmos. Sci.,2005b-e,2006,2007a-c,, 2008a-b,2010a-b, 2011, 2012a-c, 2014)为阻塞和NAO问题的解决开辟了一个新路。同时利用我们的理论模式理论上证明在强的大西洋storm track(CO2增多)强迫作用下,NAO能从正位相转换成负位相,从而使CO2所引起北半球的增暖能得到部分抑制(J. Atmos. Sci., 2011)。

获得的奖励和荣誉:

1996年第五届中国青年科技奖,

2000年第二届教育部青年教师奖.

2003年国家杰出青年科学基金获得者。

2005年山东省泰山学者特聘教授

学习和工作经历:

1982年9月-1985年7月,成都气象学院 (现成都信息工程学院)气象系,本科学习

1985年9月-1988年9月,中国科学院大气物理研究所,硕士研究生

1988年9月-1997年5月,成都气象学院气象研究所,副研究员,研究员(1995年)

1997年5月-2002年10月,中国海洋大学海洋环境学院,教授(期间获在职博士学位),博士生导师

2002年10月-2003年10月,加拿大多伦多大学物理系,访问教授。

2003年10月-2007年10月,中国海洋大学海洋环境学院,教授,博士生导师

2007年10月-2008年1月,香港城市大学,访问教授

2008年1月-2010年11月,中国海洋大学海洋环境学院,教授,博士生导师

2010年11月-至今,中国科学院大气物理研究所,研究员,博士生导师

现主持的基金项目:

国家自然科学基金项目“北大西洋涛动与欧亚极端天气事件的发生机理”

2014年1月-2017年12月(80万)

主要的研究领域:

(1)大气动力学: 阻塞和北大西洋振荡(NAO)的动力学和观测资料研究,风暴路径动力学和观测资料研究。

(2)海洋动力学:大洋环流,中高纬度地区海洋-大气年代际相互作用,海洋涡旋的动力学及与大尺度海洋环流的相互作用。

学术团体兼职:

<<气象学报>>编委, <<中国科学-地球科学>>编委

以下国际刊物的审稿人:

<<J. Atmos. Sci.>>, <<J. Climate>>, <<Quart. J. Roy. Meteoro. Soc.>>, <<Geophys. Res. Lett.>>, <<J. Geophys. Res.>>等。

1999年后部分代表性国际论文(SCI):

(41) D. Luo, L. Zhong, J. Cha and C. Franzke, 2014: Nonlinear dynamics of North Atlantic Oscillation events: A multi-scale interaction view (in preparation).

(40) D. Luo , D. Q. Wang and A. Dai, 2014: Modulation of European heat waves by the summer North Atlantic Oscillation (in preparation).

(39) D. Luo, S. Feng, L. Wu and Y. Zhang, 2014: Splitting of the Kuroshio Extension jet and its decadal variability (submitted).

(38) Y. Diao, S. Xie and D. Luo, 2014: Asymmetry of winter European surface air temperature extremes and the North Atlantic Oscillation, J. Climate (in revision).

(37), D. Luo, Y. Yao and A. Dai, 2014: Decadal relation between European blocking and North Atlantic Oscillation during 1978-2012. Part II: A theoretical model study. J. Atmos. Sci. (in revision).

(36) D. Luo, Y. Yao and A. Dai, 2014: Decadal relation between European blocking and North Atlantic Oscillation during 1978-2012. Part I: Atlantic conditions. J. Atmos. Sci. (in revision).

(35) D. Luo, Y. Yao, and S. Feldstein, 2014: Regime transition of the North Atlantic Oscillation and extreme cold events over Europe in January-February 2011/12. Mon. Wea. Rev. (in revision)

(34) D. Luo, J. Cha, L. Zhong and A. Dai, 2014: A nonlinear multi-scale interaction model for atmospheric blocking: The eddy-blocking matching mechanism. Quart. J. Roy. Meteo. Soc., (in press)

(33) D. Luo and S. Ren, 2014: Impact of the SST-wind stress coupling on the dynamics and stability of ocean current inside and outside SST frontal zones, Dyn. Atmos. Oceans (in press)

(32) T. Gong*, S. Feldstein andD. Luo, 2013: A simple GCM model study on the relationship between ENSO and the Southern Annular Mode. J. Atmos. Sci., 75, 1821-1832.

(31) Jiang, Z., M. Mu and D. Luo, 2013:A study of the North Atlantic Oscillation usingconditional nonlinear optimal perturbation. J. Atmos. Sci., 70, 855-875.

(30) D. Luo, and J. Cha, 2012: The North Atlantic Oscillation and North Atlantic jet variability: Precursors to NAO regimes and transitions. J. Atmos. Sci., 69, 3763-3787.

(29) D. Luo, J. Cha and S. Feldstein, 2012b: Weather regime transitions and the interannual variability of the North Atlantic Oscillation. Part II: Dynamical processes. J. Atmos. Sci., 69, 2347-2363.

(28) D. Luo, J. Cha and S. Feldstein, 2012a: Weather regime transitions and the interannual variability of the North Atlantic Oscillation. Part I: A likely connection. J. Atmos. Sci., 69, 2329-2346

(27) D. Luo, Y. Diaoand S. B. Feldstein,2011: The variability of the Atlantic storm track activity and North Atlantic Oscillations: A link between intraseasonal and interannual variability, J. Atmos. Sci., 68, 577-601.

(26) D. Luo, L. Zhong, R. Ren and C. Wang, 2010b:Spatial pattern and zonal shift of the North Atlantic Oscillation. Part II: Numerical experiments. J. Atmos. Sci., 67, 2827-2853

(25) D. Luo, Z. Zhu, R. Ren, L. Zhong and C. Wang, 2010a:Spatial pattern and zonal shift of the North Atlantic Oscillation. Part I: A dynamical interpretation. J. Atmos. Sci., 67, 2805-2826.

(24), T. Gong*, S. B. Feldstein and D. Luo, 2010: The impact of ENSO on wave breaking and Southern annular mode events. J. Atmos. Sci.,67, 2854-2870

(23) D. Luo, W. Zhou, and K. Wei, 2010: Dynamics of eddy-driven North Atlantic Oscillations in a localized shifting jet: zonal structure and downstream blocking, Climate dynamics,34, 73-100. DOI 10.1007/s00382-009-0559-y.

(22)Y., Wang*, S. Li, and D. Luo, 2009, Seasonal response of Asian monsoonal climate to the Atlantic Multidecadal Oscillation, J. Geophys. Res., 114, D02112, doi:10.1029/2008JD010929

(21) D. Luo, T. Gong and L. Zhong, 2008b: Dynamical relationship between the phase of North Atlantic Oscillations and meridional excursion of a preexisting jet: An analytical study. J. Atmos. Sci., 65, 1838-1858

(20)D. Luo, T. Gong and Y. Diao, 2008a: Dynamics of eddy-driven low-frequency dipole modes. Part IV: Planetary and synoptic wave breaking processes during the NAO life cycle. J. Atmos. Sci., 65, 737-765.

(19) D. Luo, T. Gong , Y. Diao and W. Zhou, 2007: Storm tracks and Annular Modes. Geophys. Res. Lett.., 34, L1780110.1029/2007GL030436.

(18) D. Luo, T. Gong and Y. Diao, 2007c: Dynamics of eddy-driven low-frequency dipole modes. Part III: Meridional shifts of westerly jet anomalies during two phases of NAO. J. Atmos. Sci. 64,3232-3243.

(17)D. Luo, T. Gong and A., R. Lupo, 2007b: Dynamics of eddy-driven low- frequency dipole modes. Part II: Free mode characteristics of NAO and diagnostic study. J. Atmos. Sci., 64, 29-51.

(16)D. Luo, A., R. Lupo and H. Wan, 2007a: Dynamics of eddy-driven low- frequency dipole modes. Part I: A simple model of North Atlantic Oscillations. J. Atmos. Sci., 64, 3-28.

(15) D. Luo and T. Gong, 2006c: A possible mechanism for the eastward shift of interannual NAOaction centers in last three decades. Geophy. Res. Lett., 33, L24815, doi:10.1029 /2006G L027860.

(14)D. Luo and Z. Chen, 2006b: The role of land-sea topography in blocking formation in a block-eddy interaction model, J. Atmos. Sci.,63,3056-3065.

(13) Y. Diao*, J. Li and D. Luo, 2006a: A new blocking index and its application: Blocking action in the Northern Hemisphere, J. Climate, 19, 4819-4839.

(12) D. Luo and H. Wan, 2005g: Decadal variability of wintertime North Atlantic and Pacific blockings: A possible cause, Geophys. Res. Lett., 32, L23810, doi: 10. 1029/2005GL024329.

(11) D. Luo, 2005f: Why is the North Atlantic block more frequent and long-lived during the negative NAO phase, Geophys. Res. Lett.,32, L20804,doi:10, 1029/ 2005GL022927.

(10) D. Luo, 2005e: A barotropic envelope Rossby soliton model for block-eddy interaction. Part IV: Block activity and its linkage with sheared environment, J. Atmos. Sci. 62, 3860-3884

(9) D. Luo, 2005d: A barotropic envelope Rossby soliton model for block-eddy interaction. Part III: Wavenumber conservation theorems for isolated blocks and deformed eddies, J. Atmos. Sci., 62, 3839-3859

(8) D. Luo, 2005c: A barotropic envelope Rossby soliton model for block-eddy interaction. Part II: Role of westward-traveling planetary waves, J. Atmos. Sci.,62, 22-40.

(7) D. Luo, 2005b: A barotropic envelope Rossby soliton model for block-eddy interaction. Part I: Effect of topography, J. Atmos. Sci.,62,5-21.

(6) D. Luo, 2005a: Interaction between envelope soliton vortex pair block and synoptic-scale eddies in an inhomogeneous baroclinicity environment, Quart. J. Roy. Meteoro. Soc. ,131, 125-154.

(5) D. Luo, Huang F. and Y. Diao, 2001: Interaction between antecedent planetary- scale envelope soliton blocking anticyclone and synoptic-scale eddies: Observations and theory. J. Geophys. Res. Vol. 106, 31795—31816.

(4) D. Luo, 2001: Derivation of a higher order nonlinear Schrödinger equation for weakly nonlinear Rossby waves, Wave Motion, 33,339-347..

(3) D. Luo and Y. Lu, 2000: The influence of negative viscosity on wind-driven ocean circulation in a subtropical basin, J. Phys. Ocean.,30,916-932 .

(2) D. Luo, 2000: Planetary-scale baroclinic envelope Rossby solitons in a two- layer model and their interaction with synoptic-scale eddies. Dyn. Atmos. Oceans, 32, 27-74.

(1) D. Luo, 1999, Near-resonantly topographically forced envelope Rossby solitons in a barotropic flow. Geophys. Astrophys. Fluid Dyn., 90, 161-188.

注:凡是本人为第一作者的论文,均为作者自己执笔完成.

欢迎有志于从事气候动力学和气候变化(大气科学和海洋科学)并具有很高数理基础的青年学生加入我们的研究团队.

办公室的电话: 010-82995213(北京),Email:ldh@mail.iap.ac.cn