Elements: Cyber Infrastructure for Efficient, Large-Scale Simulation of Inverse Compton So — NSF Award to Old Dominion University
X-rays enable scientists to see the internal structure of materials on all length scales from the macroscopic down to the positions of individual atoms. In medicine, x-ray dose could be reduced by orders of magnitude with dramatic improvements in imaging modalities and detectability of soft tissue structure including t
| Award title | Elements: Cyber Infrastructure for Efficient, Large-Scale Simulation of Inverse Compton So |
|---|---|
| Award ID | 2513760 |
| Awardee | Old Dominion University Research Foundation |
| City | NORFOLK |
| State | VA |
| Amount obligated | $600,000 |
| Principal investigator | Balsa Terzic |
| Program | Software Institutes, PHYSICS AT THE INFO FRONTIER |
| Start date | 08/01/2025 |
| Abstract | X-rays enable scientists to see the internal structure of materials on all length scales from the macroscopic down to the positions of individual atoms. In medicine, x-ray dose could be reduced by orders of magnitude with dramatic improvements in imaging modalities and detectability of soft tissue structure including tumors. New cancer treatment modalities would be possible. In spite of the huge importance of x-rays, the technology for producing them lags far behind the methods for producing ord |
| Source | NSF Awards |
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