STRATEGIC INITIATIVE
The New Frontier of Nuclear Science: Nuclear Reactions and Radiochemistry at the National Ignition Facility
Dawn Shaughnessy (16-SI-001)
 We are studying nuclear reactions in a high-energy-density plasma environment by establishing an experimental capability at Lawrence Livermore's National Ignition Facility. >>
An Alternative Rare-Event Detector
Steven Dazeley | 17-ERD-016
Developing Photonuclear Experimental Capabilities for Nuclear Science and Security
Robert Casperson | 18-ERD-013
Laying the Foundation for a Predictive Theory of Electroweak Nuclear Phenomena
Kyle Wendt | 18-ERD-058
Nucleosynthesis for Science and Security
Nicholas Scielzo | 16-ERD-022
Probabilistic Modeling for Nuclear Fission and Heavy-Ion Collisions
Ron Soltz | 17-ERD-022
The Next Breakthroughs in Neutrino Physics
Michael Heffner | 18-ERD-028
The Origins of Matter on Near-Exascale Supercomputing
Pavlos Vranas | 17-ERD-002
Additive Manufacturing of Post-Detonation Surrogate Debris Reference Materials
Tashi Parsons-Davis | 18-FS-004
Beyond Binary Reactions: A Generalized Microscopic R-Matrix Theory with Two- and Three-Particle Asymptotic Configurations
Sofia Quaglioni | 18-FS-016
Feasibility of Low-Energy Nuclear Physics Research Using Livermore Capabilities and Beams at Other Facilities
Nicholas Scielzo | 17-FS-012
Micro-Optical Gas Sensors
Tiziana Bond | 18-FS-041
Building a Predictive Fission-Rate Model
Walid Younes | 18-LW-062
Development of Integrated Systems for Discovering the Chemical Properties of the Heaviest Elements
John Despotopulos | 17-LW-035
Event-by-Event Determination of Antineutrino Direction
Steven Dazeley | 17-LW-044
Modernizing the Fission Basis
Anton Tonchev | 17-LW-020
Probing Photon Fusion for New Physics at the Large Hadron Collider Using Proton Tagging
Finn Rebassoo | 18-LW-061
Towards the World's First Nuclear Clock
Jason Burke | 18-LW-038