Prism Computational Sciences, Inc.

In the proposed Phase II Enhancement, Prism Computational Sciences, Corvid Technologies, and Bodkin Design and Engineering will perform experimental and simulation studies of the optical emission from ...

The interplay between accurate modeling and well-diagnosed experiments plays a critical role in advancing our understanding of high energy density laboratory plasmas (HEDLPs). It is vital to have high ...

The objective of this proposal is to develop advanced radiation transport modeling techniques that accurately and efficiently treat transport in media having widely varying optical properties; in part ...

The objective of this project is to develop and benchmark advanced physics-based modeling techniques that can be used to reliably predict radiative signatures emitted during the early-time impact flas ...

The objective of this proposal is to develop advanced radiation transport modeling techniques that accurately and efficiently treat transport in media having widely varying optical properties; in part ...

The objective of this proposal is to develop and validate first-principles modeling tools that will significantly advance the use of spectroscopic techniques for identifying materials present in hyper ...

In the fast ignition concept for inertial fusion energy, high-intensity short-pulse lasers are used to create energetic particles (protons and relativistic electrons) that propagate to the fuel within ...

This Small Business Innovation Research (SBIR) Phase I project will pursue the development of novel plasma technologies for creating highly efficient, short-wavelength radiation sources for use in nex ...

797870 In the fast ignition concept for inertial fusion energy, high-intensity short-pulse lasers are used to create energetic particles (protons and relativistic electrons) that propagate to the fuel ...