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| See also [[https://nicam.sakura.ne.jp/theme_auto.php|publication list by theme]]. | See also [[https://nicam.sakura.ne.jp/theme_auto.php|publication list by theme]]. |
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| | ===== 2025 ===== |
| | * [[https://doi.org/10.1016/B978-0-443-15638-0.00003-4|Nasuno, T., Kikuchi, K., and Nakano, M., 2025]]: Boreal summer intraseasonal oscillation. Chapter 3, Atmospheric Oscillations - Sources of Subseasonal-to-Seasonal Variability and Predictability, Elsevier, 33-68. https://doi.org/10.1016/B978-0-443-15638-0.00003-4 |
| ===== 2024 ===== | ===== 2024 ===== |
| | * [[https://doi.org/10.1186/s40645-024-00668-1|Takasuka, D., Satoh, M., Miyakawa, T., Kodama, C., Klocke, D., Stevens, B., Vidale, P. L., and Terai, C. R., 2024]]: A protocol and analysis of year-long simulations of global storm-resolving models and beyond. Progress in Earth and Planetary Science, 11, 66, https://doi.org/10.1186/s40645-024-00668-1 |
| | * [[https://doi.org/10.1175/JAS-D-23-0208.1|Seiki, T., and Nagao, T. M., 2024]]: Evaluation of the aggregation efficiency modeling at colder atmospheric temperatures in comparison to satellite observations. Journal of the Atmospheric Sciences, 81, 1689-1710. https://doi.org/10.1175/JAS-D-23-0208.1 |
| | * [[https://doi.org/10.1007/s00382-024-07441-6|Noda, A.T., Hirota, N., Koshiro, T., and Kawai, H., 2024]]: Robustness of the relationship between tropical high-cloud cover and large-scale circulations. Clim Dyn 62, 10153–10165. https://doi.org/10.1007/s00382-024-07441-6 |
| * [[https://doi.org/10.1029/2023GL106837|Takano, Y. H, Kodama, C., and H. Miura, 2024]]: Diagnostic method for atmosphere-ocean coupling over tropical oceans at the sub-seasonal timescale, Geophysical Research Letters, 51, 8, e2023GL106837. | * [[https://doi.org/10.1029/2023GL106837|Takano, Y. H, Kodama, C., and H. Miura, 2024]]: Diagnostic method for atmosphere-ocean coupling over tropical oceans at the sub-seasonal timescale, Geophysical Research Letters, 51, 8, e2023GL106837. |
| * [[https://doi.org/10.1029/2023MS004046|Goto, D., Nishizawa, T., Uchida, J., Yumimoto, K., Jin, Y., Higurashi, A., et al., 2024]] Development of an aerosol assimilation system using a global non‐hydrostatic model, a 2‐dimensional variational method, and multiple satellite‐based aerosol products. Journal of Advances in Modeling Earth Systems, 16, e2023MS004046. https://doi.org/10.1029/2023MS004046 | * [[https://doi.org/10.1029/2023MS004046|Goto, D., Nishizawa, T., Uchida, J., Yumimoto, K., Jin, Y., Higurashi, A., et al., 2024]] Development of an aerosol assimilation system using a global non‐hydrostatic model, a 2‐dimensional variational method, and multiple satellite‐based aerosol products. Journal of Advances in Modeling Earth Systems, 16, e2023MS004046. https://doi.org/10.1029/2023MS004046 |
| * [[https://doi.org/10.5194/amt-16-3331-2023|Roh, W., Satoh, M., Hashino, T., Matsugishi, S., Nasuno, T., Kubota, T., 2023]]: Introduction to EarthCARE synthetic data using a global storm-resolving simulation. Atmos. Meas. Tech., https://doi.org/10.5194/amt-16-3331-2023 (accepted 2023/05/23; online published 2023/06/30). | * [[https://doi.org/10.5194/amt-16-3331-2023|Roh, W., Satoh, M., Hashino, T., Matsugishi, S., Nasuno, T., Kubota, T., 2023]]: Introduction to EarthCARE synthetic data using a global storm-resolving simulation. Atmos. Meas. Tech., https://doi.org/10.5194/amt-16-3331-2023 (accepted 2023/05/23; online published 2023/06/30). |
| * [[https://doi.org/10.5194/amt-16-3211-2023|Hagihara, Y., Ohno, Y., Horie, H., Roh, W., Satoh, M. and Kubota, T., 2023]]: Global evaluation of Doppler velocity errors of EarthCARE Cloud Profiling Radar using global storm-resolving simulation. Atmospheric Measurement Techniques, https://doi.org/10.5194/amt-16-3211-2023 (accepted 2023/05/23; online published 2023/06/28). | * [[https://doi.org/10.5194/amt-16-3211-2023|Hagihara, Y., Ohno, Y., Horie, H., Roh, W., Satoh, M. and Kubota, T., 2023]]: Global evaluation of Doppler velocity errors of EarthCARE Cloud Profiling Radar using global storm-resolving simulation. Atmospheric Measurement Techniques, https://doi.org/10.5194/amt-16-3211-2023 (accepted 2023/05/23; online published 2023/06/28). |
| | * [[https://doi.org/10.1016/j.dib.2023.109135 |Matsuoka, D., Kodama, C., Yamada, Y., and Nakano, M., 2023]]: Tropical cyclone dataset for a high-resolution global nonhydrostatic atmospheric simulation. Data in Brief, 48, 109135. https://doi.org/10.1016/j.dib.2023.109135 |
| * [[https://doi.org/10.1007/s00382-022-06657-8|Rehbein, A., Ambrizzi, T., 2023]]: Mesoscale convective systems over the Amazon basin in a changing climate under global warming. Clim. Dyn. https://doi.org/10.1007/s00382-022-06657-8 | * [[https://doi.org/10.1007/s00382-022-06657-8|Rehbein, A., Ambrizzi, T., 2023]]: Mesoscale convective systems over the Amazon basin in a changing climate under global warming. Clim. Dyn. https://doi.org/10.1007/s00382-022-06657-8 |
| * [[https://doi.org/10.1029/2022GL102603|Feng, Z., Leung, L. R., Hardin, J.,Terai, C. R., Song, F., and Caldwell, P., 2023]]: Mesoscale convective systems in DYAMOND global convection-permitting simulations. Geophys. Res. Lett., 50, e2022GL102603. https://doi.org/10.1029/2022GL102603 | * [[https://doi.org/10.1029/2022GL102603|Feng, Z., Leung, L. R., Hardin, J.,Terai, C. R., Song, F., and Caldwell, P., 2023]]: Mesoscale convective systems in DYAMOND global convection-permitting simulations. Geophys. Res. Lett., 50, e2022GL102603. https://doi.org/10.1029/2022GL102603 |
| * [[https://doi.org/10.5194/amt-16-603-2023|Wang, M., Nakajima, T. Y., Roh, W., Satoh, M., Suzuki, K., Kubota, T., and Yoshida, M., 2023]]: Evaluation of the spectral misalignment on the Earth Clouds, Aerosols and Radiation Explorer/multi-spectral imager cloud product. Atmospheric Measurement Techniques, 16, 603–623, https://doi.org/10.5194/amt-16-603-2023 (accept 2023/01/31) | * [[https://doi.org/10.5194/amt-16-603-2023|Wang, M., Nakajima, T. Y., Roh, W., Satoh, M., Suzuki, K., Kubota, T., and Yoshida, M., 2023]]: Evaluation of the spectral misalignment on the Earth Clouds, Aerosols and Radiation Explorer/multi-spectral imager cloud product. Atmospheric Measurement Techniques, 16, 603–623, https://doi.org/10.5194/amt-16-603-2023 (accept 2023/01/31) |
| * [[https://doi.org/10.1016/j.ocemod.2022.102153|Tatsuo Suzuki, Masuo Nakano, Shingo Watanabe, Hiroaki Tatebe, Yuki Takano, 2023]]: Mechanism of a meteorological tsunami reaching the Japanese coast caused by Lamb and Pekeris waves generated by the 2022 Tonga eruption. Ocean Modelling, 181, 102153, https://doi.org/10.1016/j.ocemod.2022.102153. (Accepted 24 November 2022, Available online 2 December 2022) | * [[https://doi.org/10.1016/j.ocemod.2022.102153|Tatsuo Suzuki, Masuo Nakano, Shingo Watanabe, Hiroaki Tatebe, Yuki Takano, 2023]]: Mechanism of a meteorological tsunami reaching the Japanese coast caused by Lamb and Pekeris waves generated by the 2022 Tonga eruption. Ocean Modelling, 181, 102153, https://doi.org/10.1016/j.ocemod.2022.102153. (Accepted 24 November 2022, Available online 2 December 2022) |
| * [[https://doi.org/10.2151/sola.19A-001|Satoh, M., Hosotani, K., 2023]]: Characteristics analysis of the senjo-kousuitai conditions in the Kyushu region in early July: The case of the July 2020 heavy rainfall event. SOLA, 19A, 1-5(TBD), accepted (2022/12/13), doi:10.2151/sola.19A-001. Preprint available at Jxiv https://doi.org/10.51094/jxiv.184 | * [[https://doi.org/10.2151/sola.19A-001|Satoh, M., Hosotani, K., 2023]]: Characteristics analysis of the senjo-kousuitai conditions in the Kyushu region in early July: The case of the July 2020 heavy rainfall event. SOLA, 19A, 1-8 (accepted 2022/12/13), https://doi.org/10.2151/sola.19A-001 |
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| ===== 2022 ===== | ===== 2022 ===== |