Journal of the Meteorological Society of Japan

Papers
(The TQCC of Journal of the Meteorological Society of Japan is 3. The table below lists those papers that are above that threshold based on CrossRef citation counts [max. 250 papers]. The publications cover those that have been published in the past four years, i.e., from 2022-06-01 to 2026-06-01.)
ArticleCitations
2023 JMSJ Award142
Advanced Impact-Based Forecast for a Severe Flood Event Using a 1000-member Ensemble Weather Prediction at Convective-Scale28
The Application of Meteorological Satellite Products in the Extreme Sea-Effect Snowstorm Monitoring in East Asia17
Flux Adjustment on Seasonal-Scale Sea Surface Temperature Drift in NICOCO9
Estimation and Evaluation of Land Surface Reflectance from a Next-Generation Geostationary Meteorological Satellite, Himawari-8/9 AHI9
How Do the Tropics Precipitate? Daily Variations in Precipitation and Cloud Distribution8
DeepMedcast: A Deep Learning Method for Generating Intermediate Weather Forecasts among Multiple NWP Models8
Do Dry GCMs Generate QBO-like Oscillation?8
Generation of Ensemble Perturbations Using Low-Precision Floating-Point Numbers7
Representation of Quasi-Biennial Oscillation in JRA-3Q7
2022 JMSJ Award7
Evaluation of Precipitation Simulated by the Atmospheric Global Model MRI-AGCM3.26
Analysis of the Factors that Led to Uncertainty of Track Forecast of Typhoon Krosa (2019) by 101-Member Ensemble Forecast Experiments Using NICAM6
Long-Term Precipitation Changes in the Baiu and Akisame Seasons in Japan over the Past 120 Years (1901–2020)6
CORRIGENDUM: On the Existence of the Predictability Barrier in the Wintertime Stratospheric Polar Vortex: Intercomparison of Two Stratospheric Sudden Warmings in 2009 and 2010 Winters5
Long-Term Regional Reanalysis for Japan with Assimilating Conventional Observations (RRJ-Conv)5
A Comparison between SAR Wind Speeds and Western North Pacific Tropical Cyclone Best Track Estimates5
Seasonality in the ENSO-Independent Influence of Tropical Indian Ocean Sea Surface Temperature Anomalies on Western North Pacific Tropical Cyclone Genesis5
CORRIGENDUM5
Maintenance Mechanisms of Orographic Quasi-Stationary Convective Band Formed over the Eastern Part of Shikoku, Japan5
The Climatological Features of Atmospheric Rivers and their Role in Water Vapor Transport in the South Polar Region5
Eigenvalue Analysis of Atmospheric Free Oscillations under the Influence of a Zonal Mean Field4
Validation of Spaceborne Precipitation Radar Data by Rain Gauges and Disdrometers over the Complex Topography of the Northeastern Indian Subcontinent4
Historical Review of Research Activities toward Typhoons/Hurricanes Modification in Japan and the United States4
Short-Term Predictability of Extreme Rainfall Using Dual-Polarization Radar Measurements4
Tropical Cyclone Track and Intensity Predictions in the Western North Pacific Basin Using Pangu-Weather and JMA Initial Conditions4
Structure, Trend and Variability of the Semiannual Oscillation in the Equatorial Middle Atmosphere in JRA-3Q and in Satellite Observations4
Roles of August Kuroshio SST Anomaly in Precipitation Variation during September over Central China3
Mesoscale Observing System Simulation Experiment (OSSE) to Evaluate the Potential Impact from a Geostationary Hyperspectral Infrared Sounder3
A Trial of Climate Classification Based on Dynamic Climatology Using Distribution of Frontal Zone in Mid- and High Latitudes3
Dispersion Simulation Using the 1-km Gridded Wind Fields Constructed by Super-Resolution Surrogate Downscaling3
Special Edition on Research on “Heavy rainfall and snowfall, and moisture transport”3
Emergence of Future Sea-Level Pressure Patterns in Recent Summertime East Asia3
Improvement of Two-Hour-Ahead QPF Using Blending Technique with Spatial Maximum Filter for Tolerating Forecast Displacement Errors and Water Vapor Lidar Assimilation3
Editorial3
What is the Equivalent Depth of the Pekeris Mode?3
Estimation of the Equivalent Depth of the Pekeris Mode Using Reanalysis Data3
Four-Dimensional Variational Data Assimilation Using the Second-Order Incremental Approach and Quantum Annealing3
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