Latest Update:2024/03/11 13:28:18

UCHIDA Junya

Researcher Name
UCHIDA Junya
Div (Section) name/title
Regional Environment Conservation Division(Regional Atmospheric Modeling Section)/Research Associate
Research Subject
To access the impact of aerosol-cloud feedback to the climate in both the regional and global scale.
Degree(s)
Doctor of Philosophy
Professional Qualification(s)
Mathematics,Science,Physics
Environmental Speciality Field
boundary layer meteroboundary layer meteorology,Turbulence
Research Subject
  • Fiscal Year: 2023
    • 26453 : Regional Environment Conservation Domain: Foresight and Advanced Basic Research
    • 26492 : Assessment on climate impacts of short-lived climate forcers by composition and region with hierarchical numerical models
    • 26493 : Quantitative assessment of climate change by short-lived climate forcers using a high-resolution climate model
  • Fiscal Year: 2022
    • 26010 : Regional Environment Conservation Domain: Foresight and Advanced Basic Research
    • 26036 : Assessment on climate impacts of short-lived climate forcers by composition and region with hierarchical numerical models
    • 26037 : Quantitative assessment of climate change by short-lived climate forcers using a high-resolution climate model
    • 26038 : Development of a methodology to forecast global air pollution by assimilating high-resolved spatiotemporal measurements
  • Fiscal Year: 2021
    • 25605 : Assessment on climate impacts of short-lived climate forcers by composition and region with hierarchical numerical models
    • 25606 : Development of a methodology to forecast global air pollution by assimilating high-resolved spatiotemporal measurements
    • 25607 : Quantitative assessment of climate change by short-lived climate forcers using a high-resolution climate model
    • 25713 : Regional Environment Conservation Domain: Foresight and Advanced Basic Research
  • Fiscal Year: 2020
    • 25176 : Improvement of assessment methods for atmospheric behavior of hazardous materials by comprehensively analyzing nuclear accident data
    • 25177 : Assessment on climate impacts of short-lived climate forcers by composition and region with hierarchical numerical models
    • 25232 : Development of a methodology to forecast global air pollution by assimilating high-resolved spatiotemporal measurements
Research Result (Publication)
  • all
  • Original Paper