Research Engineer
E-mail :
Position
Research Engineer on the SATINV team at the LSCE.
Research Topics
As research engineer, I work for the Copernicus Marine Service (CMEMS). I am involved in the maintenance and operation of the CMEMS-LSCE-FFNN tool, which delivers all of the ocean surface carbon products expected from the LSCE, along with their documentation.
The product developed by the LSCE reconstructs six variables of the ocean surface carbonate system: partial pressure of CO₂ (pCO₂), pH, total alkalinity, dissolved inorganic carbon, as well as calcite and aragonite saturation states. These reconstructions are obtained using the feed-forward neural network CMEMS-LSCE-FFNNv2 (Chau et al., 2022; 2024a; 2024b). This product is part of the Global Carbon Project, contributing to the estimation of the ocean carbon sink.
I am also responsible for product evaluation, user support, and product outreach, particularly through the creation and documentation of OMIs (Ocean Monitoring Indicators).
CV
2024/2025
Research Engineer, AORI, University of Tokyo
Study and interpretation of the relationship between cloud base height (CBH) and longwave cloud radiative effect at the surface using GCOM-C satellite data (Nagao et al., 2025), NICAM climate model (Satoh et al., 2008), and satellite based product LIDAR-LWCRE (Arouf et al., 2022)
April to August 2024
Research Intern, AORI, University of Tokyo
Using the J-SIM satellite simulator on the NICAM climate model to extract key cloud properties. Analysing the longwave cloud radiative effect at the surface biases in the model by comparing the simulations with the satellite-based product LIDAR-LWCRE (Arouf et al., 2022).
April to July 2023
Research Intern, Laboratoire de Météorologie Dynamique (LMD)
Development of a methodology to estimate macrophysical and optical properties of high-altitude clouds (cirrus and contrails) using data from two ground-based LiDAR systems at the SIRTA experimental site, as part of the CLIMAVIATION project.
April to July 2022
Research Intern, Laboratoire de Météorologie Dynamique (LMD)
Analysis of wind-cloud interactions over Greenland using the first space-based wind LiDAR instrument on the AEOLUS satellite mission.
Scientific publications
Education
- MSc : Fundamentals of Physics and Applications, Sorbonne University (2021–2024) Major: Remote Sensing for Climate; Radiative transfer, atmospheric remote sensing, data processing, radar, lidar, meteorology, oceanography.
- BSc : Fundamentals of Physics and Applications, Sorbonne University (2018–2021) Program Type : Master’s Program in Engineering; Mechanics, Chemistry, Electromagnetism, Quantum Physics, Thermodynamics, Environmental Physics.
- Erasmus: University of Bristol, United Kingdom (2020–2021)