All Stories

  1. Impacts of stochastic coalescence variability on warm rain initiation using Lagrangian microphysics in box and large-eddy simulations
  2. Response of high-altitude clouds to the galactic cosmic ray cycles in tropical regions
  3. Parameterization and Explicit Modeling of Cloud Microphysics: Approaches, Challenges, and Future Directions
  4. Simulation of marine stratocumulus using the super-droplet method: Numerical convergence and comparison to a double-moment bulk scheme using SCALE-SDM 5.2.6-2.3.0
  5. Optimization and sophistication of the super-droplet method for ultrahigh resolution cloud simulations
  6. Progress and Challenges in Modeling Dynamics–Microphysics Interactions: From the Pi Chamber to Monsoon Convection
  7. Comparison of three aerosol representations of NHM-Chem (v1.0) for the simulations of air quality and climate-relevant variables
  8. Numerical analysis of wall surface adhesion and flow characteristics of microdroplets in oil mist separator
  9. Predicting the morphology of ice particles in deep convection using the super-droplet method: development and evaluation of SCALE-SDM 0.2.5-2.2.0, -2.2.1, and -2.2.2
  10. Confronting the Challenge of Modeling Cloud and Precipitation Microphysics
  11. NHM-Chem, the Japan Meteorological Agency's Regional Meteorology – Chemistry Model: Model Evaluations toward the Consistent Predictions of the Chemical, Physical, and Optical Properties of Aerosols
  12. Modeling of cloud microphysics: Can we do better?
  13. Numerical Convergence of Shallow Convection Cloud Field Simulations: Comparison Between Double-Moment Eulerian and Particle-Based Lagrangian Microphysics Coupled to the Same Dynamical Core
  14. Corrigendum to: A grid refinement study of trade wind cumuli simulated by a Lagrangian cloud microphysical model: the super-droplet method
  15. Non-Gaussian data assimilation of satellite-based leaf area index observations with an individual-based dynamic global vegetation model
  16. On the CCN (de)activation nonlinearities
  17. A grid refinement study of trade wind cumuli simulated by a Lagrangian cloud microphysical model: the super-droplet method
  18. On the CCN [de]activation nonlinearities
  19. Non-Gaussian data assimilation of satellite-based Leaf Area Index observations with an individual-based dynamic global vegetation model
  20. Various oscillation patterns in phase models with locally attractive and globally repulsive couplings
  21. Large-Eddy Simulations of Trade Wind Cumuli Using Particle-Based Microphysics with Monte Carlo Coalescence
  22. The super-droplet method for the numerical simulation of clouds and precipitation: a particle-based and probabilistic microphysics model coupled with a non-hydrostatic model
  23. The Earth Simulator Center
  24. Macro-micro Interlocked Simulation for Multiscale Phenomena
  25. Mean-Field Theory Revives in Self-Oscillatory Fields with Non-Local Coupling
  26. Rotating spiral waves with phase-randomized core in nonlocally coupled oscillators
  27. Rotating Spirals without Phase Singularity in Reaction-Diffusion Systems