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Papers by theme

NICAM Paper Lists by theme

(not frequently updated. Please check the papers by year for details)

Model framework, description, scheme, dynamics, physics (other schemes in NICAM)

  • Tomita, H. (2009): Analysis of Spurious Surface Temperature at the Atmosphere-Land Interface and a New Method to Solve the Surface Energy Balance Equation. J. Hydorometeor. 10. 833-844.
  • Tomita, H., Goto, K., Satoh, M.(2008) : A new approach of atmospheric general circulation model - Global cloud resolving model NICAM and its computational performance -. SIAM, J. Sci. Comput., 30, 2755-2776; DOI. 10.1137/070692273.
  • Tomita, H. (2008a) : A stretched grid on a sphere by new grid transformation. J. Meteor. Soc. Japan, 86A, 107-119.
  • Tomita, H. (2008b) : New micorphysics with five and six categories with diagnostic generation of cloud ice. J. Meteor. Soc. Japan, 86A, 121-142.
  • Satoh, M. (2007) : A road to a global nonhydostatic model. Tenki, 54.9 769-772.
  • Satoh, M.(2006) : Climate research on a next generation global cloud-resolving model. Parity, 21, 56-57. (in Japanese)
  • Tomita, H., 2006: Development of nonhydrostatic atmospheric general circulation model using an icosahedral grid. (in japanese) Nagare, 25, 181-186.
  • Satoh, M. (2003) : Conservative scheme for a compressible nonhydrostatic model with moist processes. Mon. Wea. Rev., 131, 1033-1050
  • Satoh, M. (2002) : Conservative scheme for the compressible non-hydrostatic models with the horizontally explicit and vertically implicit time integration scheme. Mon. Wea. Rev., 130, 1227-1245
  • Satoh,M., Tomita,M., Tsugawa,M. (2002) : Development of a global nonhydrostatic model. Gekkan Kaiyo, 34, 101-106 (in Japanese)

Cloud Microphysics (Single-Moment Scheme)

  • Roh, W., Satoh, M., Hohenegger, C., 2021: Intercomparison of cloud properties in DYAMOND simulations over the Atlantic Ocean. J. Meteorol. Soc. Japan, doi:10.2151/jmsj.2021-070. (accepted 2021/07/28).
  • Seiki, T., Roh, W., Satoh, M., 2021: Cloud Microphysics in Global Cloud Resolving Models. AGU Books, "Earth¡Çs Climate and Weather: Dominant Variability and Disastrous Extremes" (accepted 2021/07/10).
  • Seiki, T., and W. Roh, (2020) Improvements in Supercooled Liquid Water Simulations of Low-Level Mixed-Phase Clouds over the Southern Ocean Using a Single-Column Model, Journal of the Atmospheric Sciences, 77(11), 3803-3819.
  • Roh, W., M. Satoh, and T. Nasuno (2017) Improvement of a Cloud Microphysics Scheme for a Global Nonhydrostatic Model Using TRMM and a Satellite Simulator, Journal of the Atmospheric Sciences, 74(1), 167-184.
  • Roh, W. and M. Satoh, (2014): Evaluation of Precipitating Hydrometeor Parameterizations in a Single-Moment Bulk Microphysics Scheme for Deep Convective Systems over the Tropical Central Pacific, Journal of the Atmospheric Sciences, 71(7), 2654-2673.
  • Tomita, H. (2008a):New micorphysics with five and six categories with diagnostic generation of cloud ice. J. Meteor. Soc. Japan, 86A, 121-142.

Cloud Microphysics (Double-Moment Scheme)

  • Seiki, T., and W. Roh, (2020) Improvements in Supercooled Liquid Water Simulations of Low-Level Mixed-Phase Clouds over the Southern Ocean Using a Single-Column Model, Journal of the Atmospheric Sciences, 77(11), 3803-3819.
  • Seiki, T., and T. Nakajima (2014) Aerosol Effects of the Condensation Process on a Convective Cloud Simulation, Journal of the Atmospheric Sciences, 71(2), 833-853.

Aqua planet expriment

  • Yasunaga, K., T. Nasuno, H. Miura, T. N. Takayabu, and M. Yoshizaki, 2009: Afternoon precipitation peak simulated in an Aqua-planet global cloud-resolving model (Aqua-planet-NICAM). J. Meteor. Soc. Japan, submitted
  • Mapes, B., S. Tulich, T. Nasuno, and M. Satoh, 2008: Predictability aspects of global aqua-planet simulations with explicit convection. J. Meteor. Soc. Japan, 86A, 175-185.
  • Nasuno, T., 2008: Equatorial mean zonal wind in a global nonhydrostatic aquaplanet experiment. J. Meteor. Soc. Japan, 86A, 219-236. (C) Copyright 2008, Meteorological Society of Japan (MSJ). Permission has been provided by MSJ to place a copy of the articles on this server. MSJ will not guarantee that the copy provided here is an accurate one published in the Journal.

MJO

  • Miura, H., M. Satoh, T., and M. Katsumata, 2009: Spontaneous onset of a Madden-Julian oscillation event in a cloud-system-resolving simulation. Geophys. Res. Lett., in press.
  • Taniguchi, H., W. Yanase, M. Satoh (2009): Ensemble simulation of cyclone Nargis by a Global Cloud-system-resolving Model -- modulation of cyclogenesis by the Madden-Julian Oscillation. J. Meteor. Soc. Japan, accepted.
  • Oouchi, K., M. Satoh, H. Tomita, T. Nasuno, A.T. Noda, and H. Taniguchi(2009): Comment on "Convectively coupled equatorial waves" by G.N. Kiladis, M.C. Wheeler, P.T. Haertel, K.H. Straub, P.E. Roundy, Rev. Geophys., 47, RG2003,doi:10.1029/2008RG000266, Rev. Geophys., submitted
  • Oouchi, K., A. T. Noda, M. Satoh, H. Taniguchi, H. Miura, T. Nasuno, 2008: Super cloud cluster viewed as a gigantic multicellular squall line: an alternative interpretation of its origin. J. Atmos. Sci., submitted
  • Liu, P., M. Satoh, B. Wang, H. Fudeyasu, T. Nasuno, T. Li, H. Miura, H. Taniguchi, H. Masunaga, X. Fu, and H. Annamalai (2009): A MJO Simulated by the NICAM at 14-km and 7-km Resolutions. Mon. Wea. Rev., accepted.
  • Nasuno,T., H. Miura, H., M. Satoh, A. T. Noda, and K. Oouchi, 2009: Multi-scale organization of convection in a global numerical simulation of the December 2006 MJO event using explicit moist processes. J. Meteor. Soc. Japan, 87, 335-345. (C) Copyright 2009, Meteorological Society of Japan (MSJ). Permission has been provided by MSJ to place a copy of the articles on this server. MSJ will not guarantee that the copy provided here is an accurate one published in the Journal.
  • Masunaga, H., Satoh, M., Miura, H. (2008) : A Joint Satellite and Global Cloud-Resolving Model Analysis of a Madden-Julian Oscillation event: Model Diagnosis. J. Geophys. Res.,113, D17210, doi:10.1029/2008JD009986.
  • Satoh, M. (2008) : Numerical simulations of heavy rainfalls by a global cloud-resolving model. J. Disaster Research, 3, 33-38.

Typhoon / Cyclone

  • Oouchi, K., M. Satoh, and W. Mashiko., 2012: Tropical cyclone research with numerical models -Current status and future prospect. Kisyo-kenkyu Note. Meteorological Society of Japan (in Japanese), in press.
  • Emanuel, k., K. Oouchi, M. Satoh, H. Tomita, Y. Yamada, 2010: Comparison of Explicitly Simulated and Downscaled Tropical Cyclone Activity in a High-Resolution Global Climate Model, J. Adv. Model. Earth Syst., Vol. 2, Art. #9, 9 pp., doi:10.3894/JAMES.2010.2.9.
  • Yamada, Y., K. Oouchi, M. Satoh, H. Tomita and W. Yanase, 2009: Projection of changes in tropical cyclone activity and cloud height due to greenhouse warming: global cloud-system-resolving approach. Geophys. Res. Lett., submitted.
  • Yanase, W., H. Taniguchi, M. Satoh (2009): Environmental modulation and numerical predictability associated with the genesis of tropical cyclone Nargis (2008) . J. Meteor. Soc. Japan, accepted.
  • Taniguchi, H., W. Yanase, M. Satoh (2009): Ensemble simulation of cyclone Nargis by a Global Cloud-system-resolving Model -- modulation of cyclogenesis by the Madden-Julian Oscillation. J. Meteor. Soc. Japan, accepted.
  • Hironori Fudeyasu,Yuqing Wang, Masaki Satoh, Tomoe Nasuno, Hiroaki Miura,and Wataru Yanase, 2009: Multiscale Interactions in the Lifecycle of a Tropical Cyclone Simulated in a Global Cloud-System-Resolving Model Part I: Large Scale Aspects. Mon. Wea. Rev., submitted.
  • Hironori Fudeyasu,Yuqing Wang, Masaki Satoh, Tomoe Nasuno, Hiroaki Miura,and Wataru Yanase, 2009: Multiscale Interactions in the Lifecycle of a Tropical Cyclone Simulated in a Global Cloud-System-Resolving Model Part II: Mesoscale and storm-scale processes. Mon. Wea. Rev., submitted.
  • Fudeyasu, H., Y. Wang, M. Satoh, T. Nasuno, H. Miura, and W. Yanase, 2008: The global cloud-system-resolving model NICAM successfully simulated the lifecycles of two real tropical cyclones. Geophys. Res. Lett., 35, L22808, doi:10.1029/2008GL0360033.

Monsoon

  • Taniguchi, H., W. Yanase, M. Satoh (2009): Ensemble simulation of cyclone Nargis by a Global Cloud-system-resolving Model -- modulation of cyclogenesis by the Madden-Julian Oscillation. J. Meteor. Soc. Japan, accepted.

Precipitation

  • Dim, J. R., H. Murakami, T. Y. Nakajima, T. Takamura, M. Mori, and N. Kikuchi, 2009: Water Vapor Radiation in the Upper Troposphere: Comparison Between Satellites¡ÇObservations and Atmospheric Models Predictions. J. Geophys. Res., submitted.
  • Noda, A. T., K. Oouchi, M Satoh, H. Tomita, S. Iga, and Y. Tsushima, 2009: Importance of the subgrid-scale turbulent moist process: Cloud distribution in global cloud-resolving simulations. Atmos. Res., in press.
  • Sato, T., H. Miura, M. Satoh, Y. N. Takayabu, Y. Wang, 2009: Diurnal cycle of precipitation in the tropics simulated in a global cloud-resolving model, J. Climate, in press.
  • Nasuno,T and M. Satoh, 2009: Properties of precipitation and in-cloud vertical motion in a global nonhydrostatic aquaplanet experiment. J. Meteor. Soc. Japan, submitted.
  • Suzuki, K., and G. L. Stephens (2009): Relationship between radar reflectivity and the time scale of warm rain formation in a global cloud-resolving model. Atmos. Res., doi:10.1016/j.atmosres.2008.12.010.

Clouds and their diurnal cycle, physics

  • Satoh, M., Inoue, T., and Miura, H. (2009): Evaluations of cloud properties of global and local cloud-system resolving models using CALIPSO/CloudSat simulators. J. Geophys. Res., submitted.
  • Inoue, T., Satoh, M., Hagihara, Y., Miura, H., and Schmetz, J. (2009): Comparison of high-level clouds represented in a global cloud-system resolving model with CALIPSO/CloudSat and geostationary satellite observations. J. Geophys. Res., submitted.
  • Noda, A. T., K. Oouchi, M Satoh, H. Tomita, S. Iga, and Y. Tsushima, 2009: Importance of the subgrid-scale turbulent moist process: Cloud distribution in global cloud-resolving simulations. Atmos. Res., in press.
  • Oouchi, K., A. T. Noda, M. Satoh, H. Taniguchi, H. Miura, T. Nasuno, 2008: Super cloud cluster viewed as a gigantic multicellular squall line: an alternative interpretation of its origin. J. Atmos. Sci., submitted
  • Collins, W. D., Satoh, M. 2009: Simulating Global Clouds, Past, Present, and Future. Chap 20 of "Heintzenberg, J., and R. J. Charlson, eds. 2009. Clouds in the Perturbed Climate System: Their Relationship to Energy Balance, Atmospheric Dynamics, and Precipitation." Struengmann Forum Report, vol. 2. Cambridge, MA: The MIT Press, pp.469-486.
  • Quaas, J. S. Bony, W. D. Collins, L. Donner, A. Illingworth, A. Jones, U. Lohmann, M. Satoh, S. E. Schwartz,W.-K. Tao, and R. Wood, 2009: Current understanding and quantification of clouds in the changing climate system and strategies for reducing critical uncertainties. Chap 24 of "Heintzenberg, J., and R. J. Charlson, eds. 2009. Clouds in the Perturbed Climate System: Their Relationship to Energy Balance, Atmospheric Dynamics, and Precipitation." Struengmann Forum Report, vol. 2. Cambridge, MA: The MIT Press, pp.557-573.
  • Satoh, M., Matsuda, Y. (2008) : Statistics of high-cloud areas and its sensitivity to cloud microphysics with single cloud experiments. J. Atmos. Sci., 66, 2659-2677.
  • Tomita, H. (2008b) : New micorphysics with five and six categories with diagnostic generation of cloud ice. J. Meteor. Soc. Japan, 86A, 121-142.
  • Satoh, M. (2008) : Numerical simulations of heavy rainfalls by a global cloud-resolving model. J. Disaster Research, 3, 33-38.
  • Sato, T., Miura, H., Satoh, M. (2007) : Spring diurnal cycle of clouds over Tibetan Plateau: global cloud-resolving simulations and satellite observations. Geophys. Res. Lett., 34, L18816, doi:10.1029/2007GL030782

Climate

  • Collins, W. D., Satoh, M. 2009: Simulating Global Clouds, Past, Present, and Future. Chap 20 of "Heintzenberg, J., and R. J. Charlson, eds. 2009. Clouds in the Perturbed Climate System: Their Relationship to Energy Balance, Atmospheric Dynamics, and Precipitation." Struengmann Forum Report, vol. 2. Cambridge, MA: The MIT Press, pp.469-486.
  • Quaas, J. S. Bony, W. D. Collins, L. Donner, A. Illingworth, A. Jones, U. Lohmann, M. Satoh, S. E. Schwartz,W.-K. Tao, and R. Wood, 2009: Current understanding and quantification of clouds in the changing climate system and strategies for reducing critical uncertainties. Chap 24 of "Heintzenberg, J., and R. J. Charlson, eds. 2009. Clouds in the Perturbed Climate System: Their Relationship to Energy Balance, Atmospheric Dynamics, and Precipitation." Struengmann Forum Report, vol. 2. Cambridge, MA: The MIT Press, pp.557-573.

Diagnostic evaluation, Predictability

  • Kodama C., A. T. Noda, and M. Satoh, An Assessment of the cloud signals simulated by NICAM using ISCCP, CALIPSO, and CloudSat satellite simulators, J. Geophys. Res, doi:10.1029/2011JD017317, in press.
  • Dim, J. R., H. Murakami, T. Y. Nakajima, T. Takamura, M. Mori, and N. Kikuchi, 2009: Water Vapor Radiation in the Upper Troposphere: Comparison Between Satellites¡ÇObservations and Atmospheric Models Predictions. J. Geophys. Res., submitted.
  • Satoh, M., Inoue, T., and Miura, H. (2009): Evaluations of cloud properties of global and local cloud-system resolving models using CALIPSO/CloudSat simulators. J. Geophys. Res., submitted.
  • Inoue, T., Satoh, M., Hagihara, Y., Miura, H., and Schmetz, J. (2009): Comparison of high-level clouds represented in a global cloud-system resolving model with CALIPSO/CloudSat and geostationary satellite observations. J. Geophys. Res., submitted.
  • Yanase, W., H. Taniguchi, M. Satoh (2009): Environmental modulation and numerical predictability associated with the genesis of tropical cyclone Nargis (2008) . J. Meteor. Soc. Japan, accepted.
  • Noda, A. T., K. Oouchi, M Satoh, H. Tomita, S. Iga, and Y. Tsushima, 2009: Importance of the subgrid-scale turbulent moist process: Cloud distribution in global cloud-resolving simulations. Atmos. Res., in press.

Aerosol

Quasi-realtime forecasting application

  • Oouchi, K., H. Taniguchi, T. Nasuno, M. Satoh, H. Tomita, Y. Yamada, M. Ikeda, R. Shirooka, H. Yamada, and K. Yoneyama, 2012: A prototype quasi real-time intra-seasonal forecasting of tropical convection over the warm pool region: a new challenge of global cloud-system-resolving model for a field campaign.NovaScience Publishers, Inc.,Eds. K. Oouchi and H. Fudeyasu, pp.233-248.
Last modified:2021/09/10 14:09:45
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