| Last Name | Name | Awards | Contact | |
|---|---|---|---|---|
| Stovall | Mr. James E. Stovall | 1 | Message | |
| Grand | Mr. Pierre Grand | 7 | Message | |
| Talbert | Willard L. Talbert | 3 | Message | |
| Macek | Robert J. Macek | 3 | Message | |
| Jason | Andrew J. Jason | 1 | Message | |
| Cappiello | Charlene Cappiello | 1 | Message |
Phase 1 SBIR
This Small Business Innovative Research Phase 1 proposal requests $100,000 support for TechSource to identify and document feasible technology options to replace the White Sands Fast Burst Reactor (FBR); reference Army Topic Number A12-088, Alternative Source for Neutron Generation. The U.S. Army requires a neutron generator to replace the FBR...
Phase 1 SBIR
Electron cloud effects, especially electron cloud driven beam instabilities, are critical technical risks for the next generation of high intensity proton rings and for upgrades to existing machines. Significant changes and improvements to the simulation codes for electron cloud generation are needed to accurately and reliably model electron clo...
Phase 1 SBIR
The non-scaling Fixed Focus Alternating Gradient (FFAG) Accelerator is of strong interest for DOE facilities and commercial applications as a less expensive, faster cycling, and more-readily-operable device. This project will investigate the feasibility of this concept and plan for the construction of a scaled electron prototype. Phase I will ...
Phase 1 STTR
Institution: Indiana University
We propose to study the development of a dedicated neutron source for Single Event Effects (SEE)to be collocated and intregrated with an existing neutron source (LENS)at the Indiana University Cyclotron Facility (IUCF). The study will maximize use of existing facilities to maximize the cost/benefit for the SEE neutron source.
Phase 2 SBIR
75153S Electron cloud effects, including electron cloud induced instabilities, are a critical technical risk for the next generation of high intensity, accelerator-based research facilities. In particular, new diagnostics are required to observe electron cloud formation and trapping in quadrupole magnets, in order to test theories and simulati...
Phase 1 SBIR
75153-Electron cloud effects are a critical technical risk for the next generation of high intensity proton and positron rings, to be used in facilities for High Energy Physics research. New diagnostics are required to observe electron cloud formation and trapping and to test theories and simulations of various beam dynamics issues. In particu...
Phase 2 SBIR
65480 The production of intense fission product radioactive beams used for nuclear physics research requires special target approaches. One such approach is that of a two-step target, in which an energetic, intense light-ion beam strikes a cooled heavy metal target to create neutrons, and the neutrons cause fissions in a surrounding blanke...
Phase 1 SBIR
65480 The production of intense fission product radioactive beams used for nuclear physics research requires special target approaches. One such approach is that of a two-step target, in which an energetic, intense light-ion beam strikes a cooled heavy metal target to create neutrons, and the neutrons cause fissions in a surrounding blanke...
Phase 1 SBIR
65480 The production of intense fission product radioactive beams used for nuclear physics research requires special target approaches. One such approach is that of a two-step target, in which an energetic, intense light-ion beam strikes a cooled heavy metal target to create neutrons, and the neutrons cause fissions in a surrounding blanke...
