Awarded Projects

This proposal portrays several extensions to this discovery, which involve optical manipulation of the laser beam to achieve brighter radiation beams. The main strong-suit of the proposed research is that it is closely followed by experiments using our 20 Terawatt (TW) laser lab.

The free-surface flow induced by progressive non-breaking wind waves propagating in shallow waters over a  horizontal bottom will be investigated by means of Direct Numerical Simulations (DNS).

This project aims to construct a comprehensive map of drag reduction as a function of Reynolds number and verify the reliability of finite-Reynolds-number extrapolations.

This research project investigates the structure and dynamics of wall-bounded turbulence in adverse and favorable pressure gradient (APG and FPG) turbulent boundary layers (TBLs) using direct numerical simulation (DNS).

Among the solutions used to control shock wave/turbulent boundary layer interaction (SBLI) in practical applications, several studies in recent years have demonstrated the effectiveness of micro vortex generators (MVGs) to successfully delay shock-induced separation with reduced device drag.

This project will perform cross-datacenter training of a stage-of-the-art multilingual LLM at an unprecedented scale (tens of billions of parameters trained on tens of trillions of tokens) using coordinated allocations across multiple supercomputers.

The design of novel photocatalytic and photovoltaic devices requires an in-depth understanding of the microscopic physical mechanisms governing the light-matter interaction.

In this project, the research team proposes to leverage DNS to study a temporally-evolving nonequilibrium 3DTBL in a plane channel with an imposition of sudden transverse pressure gradient.

The key goal of this project is to develop a small language model that can deliver exceptional performance across multilingual reasoning tasks (English, French, Spanish, German, and Italian), instruction following, agent integration (tool calling), and extended context support (128k+ tokens).