Kensuke Nakajima | Last modified date：2016.10.11 |

Assistant Professor /
Earth Planetary Fluid and Space Sciences /
Department of Earth and Planetary Sciences /
Faculty of Sciences

**Presentations**

1. | Nakajima, K., Sugiyama, K., and 3 others, Numerical Simulations of Jupiter’s Moist Convection Layer: Structure and Dynamics in Statistically Steady States, 46th Meeting of the Division for Planetary Sciences with Historical Astronomy Division (HAD), American Astronomical Society, 2014.11.13. |

2. | Sugiyama, K., Nakajima, K., and 8 others, Assessment of Mars surface environment for a exploration program using CReSS-Mars, a convection resolving numerical model adjusted for Mars atmosphere, The Joint Workshop of 6th International Workshop on Global Cloud Resolving Modeling and 3rd International Workshop on Nonhydrostatic Numerical Models, 2014.09.25. |

3. | Sugiyama, K., Nakajima, K., and 3 others, Numerical Simulations of Jupiter’s Moist Convection Layer: Structure and Dynamics in Statistically Steady States, The Joint Workshop of 6th International Workshop on Global Cloud Resolving Modeling and 3rd International Workshop on Nonhydrostatic Numerical Models, 2014.09.25. |

4. | Yamashita, T., Nakajima, K., and 4 others, A 2D Numerical Simulation of Atmospheric Convection with Condensation of Major Component Under Early Mars, Asia Oceania Geosciences Society 2014 meeting, 2014.07.31. |

5. | Nishizawa, S., Nakajima, K., and 9 others, High-resolution large-eddy simulation of the Martian planetary boundary layer, Asia Oceania Geosciences Society 2014 meeting, 2014.07.30. |

6. | Sugiyama, K., Nakajima, K., and 3 others, Numerical Simulations of Jupiter’s Moist Convection Layer: Structure and Dynamics in Statistically Steady States, Asia Oceania Geosciences Society 2014 meeting, 2014.07.28. |

7. | Tsumura, K., Nakajima, K., and 13 others, Near-infrared Detections of Surprisingly Bright Ganymede and Callisto in the Jovian Shadow, Asia Oceania Geosciences Society 2014 meeting, 2014.07.28. |

8. | S. Takehiro, Y. Sasaki, Y.O. Takahashi, 中島 健介, Y.-Y. Hayashi, K. Kuramoto, Diversity of atmospheric circulation of synchronously rotating Jovian type planets, Exoplanets and Disks: Their formation and diversity II, 2013.12.11. |

9. | S.Noda, M.Ishiwatari, 中島 健介, Y.O.Takahashi, S.Takehiro, M.Onishi, G.L.Hashimoto, K.Kuramoto, Y.-Y. Hayashi, Atmospheric general circulations of synchronously rotating water-covered exoplanets: Dependence on planetary rotation rate, RIMS International Conference on Zonal Flows in Geophysical and Astrophysical Fluids, 2013.11.07. |

10. | Y. Sasaki, S.Takehiro, 中島 健介, Y.-Y. Hayashi, Surface zonal flows induced by thermal convection in a rapidly rotating thin spherical shell, RIMS International Conference on Zonal Flows in Geophysical and Astrophysical Fluids, 2013.11.07. |

11. | 山下達也, 小高正嗣, 杉山耕一朗, 中島 健介, 石渡 正樹, 林 祥介, A 2D numerical simulation of atmoepheric convection with condensation of major component under early Mars condition, 日本地球惑星科学連合 2013 年大会, 2013.05.21. |

12. | S.Noda, M.Ishiwatari, 中島 健介, Y.O.Takahashi, S.Nishizawa, M.Onishi, G.L.Hashimoto, K.Kuramoto, Y.-Y. Hayashi, A numerical study on atmospheric general circulations of synchronously rotating aqua-planets: Dependence on planetary rotation rate and solar constant, 44th Lunar and Planetary Science Conference, 2013.03.21. |

13. | 佐々木洋平, 竹広真一, 中島 健介, 林祥介, Surface zonal flow induced by turbulent convection in rapidly rotating spherical shells, 惑星大気研究会, 2013.03.14. |

14. | 中島 健介, 林祥介, M.Blackburn, D.Williamson, 山田由貴子, 高橋芳幸, 竹広真一, 石渡正樹, 大淵済, Quick Summary of Aqua Planet Experiment (APE), 惑星大気研究会, 2013.03.14. |

15. | 杉山耕一朗, 小高正嗣, 中島 健介, 倉本圭, 林祥介, Numerical Modeling of Moist Convection in Jupiter's Atmosphere, 惑星大気研究会, 2013.03.12. |

16. | 竹広真一, 高橋芳幸, 杉山耕一朗, 小高正嗣, 石渡正樹, 佐々木洋平, 西澤誠也, 石岡圭一, 中島 健介, 林祥介, Construction of Hierarchical Models for the Fluid Dynamics in Earth and Planetary Sciences : DCMODEL project, Inernational Conference on Simulation and Technology (JSST 2012), 2012.09.28. |

17. | 佐々木洋平, 竹広真一, 中島 健介, 林祥介, Surface zonal flow induced by turbulent convection in rapidly rotating spherical shells, Inernational Conference on Simulation and Technology (JSST 2012), 2012.09.28. |

18. | 佐々木洋平, 竹広真一, 西澤誠也, 中島 健介, 林祥介, Effects of latitudinally heterogeneous buoyancy flux conditions at the inner boundary on MHD dynamos in a rotating spherical shell., The 13th Symposium of SEDI, Study of the Earth's Deep Interior, 2012.07.03. |

19. | 佐々木洋平, 竹広真一, 中島 健介, 林祥介, Development of an anelastic convection model in rotating spherical shells for stars, gas and icy giant planets., The 13th Symposium of SEDI, Study of the Earth's Deep Interior, 2012.07.03. |

20. | 中島 健介, S.Noda, M.Ishiwatari, Y.O.Takahashi, S. Takehiro, Y. Morikawa, S.Nishizawa, Y.-Y. Hayashi, Atmospheric general circulation of synchronously rotating terrestrial planets: Dependence on planetary rotation rate, Comparative Climatology of Terrestrial Planets (2012), 2012.06.27. |

21. | Numerical experiments on large-scale organization of cloud convection. |

22. | Observation of Jupiter's atmosphere using TOPS. |

23. | Observation of Jupiter's atmosphere using TOPS. |

24. | Observation of Jupiter's atmosphere using TOPS. |

25. | Observation of Jupiter's atmosphere using TOPS. |

26. | Observation of Jupiter's atmosphere using TOPS. |

27. | Development of a numerical model for Jovian cloud convection including H2O, NH3, and NH4SH clouds. |

28. | The Effect of Vertical Wind Shear on Vortex Formation in Cooling Region. |

29. | TOPS, the telescopic observatiry for planets on Small satellites. |

30. | Issues on the "convective clouds" in Titan's atmosphere. |

31. | Numerical modeling of cloud convection in Titan's atmosphere. |

32. | Numerical Modeling Of Moist Convection In Jupiter's Atmosphere With H2O, NH3, And NH4SH Clouds,. |

33. | Numerical experiments on large-scale organization of cloud convection. |

34. | Numerical experiments on large-scale organization of cloud convection. |

35. | Development of a numerical model for Martian cloud convection considering the condensation of major constituent. |

36. | Development of a numerical model for Jovian cloud convection including H2O, NH3, and NH4SH clouds. |

37. | Spontaneous organization of cloud convection : CISK or CIFK?. |

38. | Numerical experiments on large-scale organization of cloud convection. |

39. | Development of a numerical model for Martian cloud convection considering the condensation of major constituent. |

40. | Development of a numerical model for Jovian cloud convection including H2O, NH3, and NH4SH clouds. |

41. | Clouds in planetary atmospheres --- self organization through irreversible processes. |

42. | Meteorology and Oceanography of extrasolar planets. |

43. | A resolution dependence of equatorial precipitation activities represented in a general circulation model. |

44. | Numerical Modeling of Cloud Convection With High Condensation Threshold: Implication to Methane Convetive Clouds in Titan's Atmosphere. |

45. | Current understandings on the dynamics of Jovian atmosphere. |

46. | Numerical Modeling of Cloud Convection With High Condensation Threshold: Implication to Methane Convetive Clouds in Titan's Atmosphere. |

47. | The atmospheric circulation of Extra solar planets: What is required for its prediction? 2004 Joint meeting for Earth and Planetary Sicence K.Nakajima. |

48. | Nakajima K, Nakano,M., Yue T., Numerical modeling of thermal compression wave induced by thermal convection. Spring meeting of the Meteorological Society of Japan.. |

49. | Spontaneous organization of cumulus convection in idealized conditions. 2004 Joint meeting for Earth and Planetary Sicence K.Nakajima. |

50. | Influence of vertical wind shear on the initial vortex formation of tropical cyclone. |

51. | Nakajima K, Natural variability of cumulus convective activity in a very large domain 2-dimensional model. Fall meeting of the Meteorological Society of Japan.. |

52. | Numerical modeling of multiple-scale structure of tropical cumulus convective activities 2003 Joint meeting for Earth and Planetary Sicence K.Nakajima. |

53. | Nakajima K Cloud convections in the earth and planetary fluids Spring meeting of the Meteorological Society of Japan.. |

54. | NUMERICAL MODELING OF JUPITER'S MOIST CONVECTION LAYER: SENSITIVITY TO DEEP WATER CONTENT 2003 Joint meeting for Earth and Planetary Sicence Nakajima K, Takehiro S, Ishiwatari M, Hayashi YY. |

55. | Numerical modeling of the cloud convection in Titan's atmosphere: a preliminary study. Nakajima,K., S.Takehiro, M.Ishiwatari, Y.-Y.Hayashi Fall meeting of Japan Society of Planetary Sciences. |

56. | Nakajima K, Generalized wave-CISK: linear theory and numerical modeling Fall meeting of the Meteorological Society of Japan.. |

57. | The response of the tropical atmosphre to a localized warm SST area placed on the equator of an aqua planet : Inidial development extracted by an ensemble study. Nakajima,K., M.Ishiwatari, S.Takehiro, E.Toyoda, and Y.-Y.Hayashi Fall meeting of the Meteorological Society of Japan.. |

58. | Incessant free oscillations of the earth and Jupiter excited by cumulus convective activity. Nakajima,K., S. Notsuhara Fall meeting of Japan Society of Planetary Sciences. |

59. | The response of the tropical atmosphre to a localized warm SST area placed on the equator of an aqua planet : Inidial development extracted by an ensemble study. Nakajima,K.,E.Toyoda, M.Ishiwatari, and Y.-Y.Hayashi Fall meeting of the Meteorological Society of Japan.. |

60. | Nakajima K, S. Notsuhara Do clouds shake the earth? -- excitation of the earth's free oscillation by cumulus convection -- Annuall meeting of the Japan Society of Fluid Mechanics.. |

61. | THE INTERACTION BETWEEN VOLCANIC ERUPTION CLOUD AND THE PHASE CHANGE OF WATER: A NUMERICAL STUDY 2001 Joint meeting for Earth and Planetary Sicence K.Nakajima, F.Mizutani. |

62. | Excitation of the free oscillation of the solid earth by cumulus convection(4): character of source mechanism and spatial structure of the response. 2001 Joint meeting for Earth and Planetary Sicence K.Nakajima, S.Notsuhara. |

63. | Excitation of the free oscillation of the solid earth by cumulus convection(3) 2001 Joint meeting for Earth and Planetary Sicence K.Nakajima, S.Notsuhara. |

64. | Excitation of the free oscillation of the solid earth by cumulus convection Spring meeting of the Meteorological Society of Japan K.Nakajima, S.Notsuhara. |

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