| Energy Economics Models to Guide Technology Development |
23-FS-044 |
Thomas Edmunds |
Energy and Resource Security |
Feasibility Study |
Continuing |
| Engineered Human Vascular Models to Study Endothelial Dysfunction in Infectious Disease |
22-LW-088 |
Monica Moya |
Bioscience and Bioengineering |
Lab-Wide |
Final |
| Engineering a Biosynthetic Pathway for Glycolonitrile, a High Energy Material Precursor |
22-ERD-051 |
Mimi Yung |
Bioscience and Bioengineering |
Exploratory Research |
Continuing |
| Engineering Bacillus Subtilis for Controlled Gaseous Nitrogen Fixation to Reduce Artificial Nitrogen Utilization and Enhance Microbial Community Function |
23-LW-014 |
Cody Madsen |
Bioscience and Bioengineering |
Lab-Wide |
Continuing |
| Enhanced Effect High Explosive Formulations |
23-FS-046 |
Alan Dehope |
High-Explosives Physics, Chemistry, and Material Science |
Feasibility Study |
Final |
| Enhanced Tunnel Detection with Multiple Sensor Technologies |
22-FS-042 |
Whitney Kirkendall |
Earth and Atmospheric Science |
Feasibility Study |
Final |
| Enhancing Precipitation Predictions with the Cloud-Associated Parameterizations Testbed using Artificial Intelligence |
22-ERD-013 |
Hsi-Yen Ma |
Earth and Atmospheric Science |
Exploratory Research |
Final |
| Establishing a Design Hub for Tokamak Fusion Reactor Divertor Systems |
23-ERD-015 |
Benjamin Dudson |
Energy and Resource Security |
Exploratory Research |
Continuing |
| Evaluating Epsilon Iron Oxide for Radio Frequency Pulse Generation |
23-FS-035 |
Joseph Schneider |
Directed Energy |
Feasibility Study |
Final |
| Exact Representation of Curved Material Interfaces and Boundaries in High-Order Finite Element Simulations |
21-ERD-031 |
Vladimir Tomov |
High-Performance Computing, Simulation, and Data Science |
Exploratory Research |
Final |
| Expanding Plutonium Inorganic Chemistry |
23-FS-041 |
Gauthier Deblonde |
Nuclear, Chemical, and Isotopic Science and Technology |
Feasibility Study |
Continuing |
| Expanding the Domain of Applicability of Machine Learning Models with Limited Data |
23-ERD-051 |
Stewart He |
Biological and Chemical Countermeasures |
Exploratory Research |
Continuing |
| Experimentally Interrogating Detonation Chemistry on Sub-Nanosecond to 100-Nanosecond Timescales |
21-ERD-023 |
Trevor Willey |
High-Explosives Physics, Chemistry, and Material Science |
Exploratory Research |
Final |
| Exploiting Hydrogen-Induced Phase Transformations for High-Temperature Applications |
22-ERD-002 |
Tae Wook Heo |
Energy and Resource Security |
Exploratory Research |
Continuing |
| Exploration of Directly Driven Liquid Deuterium-Tritium Wetted Foam Designs for Burning Plasma and High Neutron Yield Applications |
23-FS-018 |
Gregory Kemp |
High-Energy-Density Science |
Feasibility Study |
Final |
| Explore Flow-Directed Electrolyte Transport in the Development of Fast-Charging Lithium-Ion Batteries |
23-FS-047 |
Jianchao Ye |
Accelerated Materials and Manufacturing |
Feasibility Study |
Continuing |
| Exploring a Novel Way to Mitigate Surface Damage in Tokamaks |
21-ERD-009 |
Michael Campanell |
High-Energy-Density Science |
Exploratory Research |
Final |
| Exploring Innovative High-Gain Ignition Concepts for Inertial Fusion Energy |
23-ERD-023 |
Stephan Maclaren |
High-Energy-Density Science |
Exploratory Research |
Final |
| Exploring the Cosmos: Enabling One-Thousand Times More Sensitive Spectrographs for Exoplanet Search |
22-LW-020 |
David Erskine |
Lasers and Optical Science and Technology |
Lab-Wide |
Final |
| Extending Equation-of-State Measurements to Gigabar Pressures |
22-ERD-005 |
Michael Macdonald |
High-Energy-Density Science |
Exploratory Research |
Continuing |
