Collaborative Research: Near Field Population Synthesis — NSF Award to University of Washington (WA, $279,533)
The final stages in the evolution of the most massive stars play a crucial role in astrophysics, injecting energy and enriched metals into the interstellar medium, and producing compact objects – neutron stars, black holes, and the wide range of transient phenomena associated with them. The predictive power of theoreti
| Award title | Collaborative Research: Near Field Population Synthesis |
|---|---|
| Award ID | 2511540 |
| Awardee | University of Washington |
| City | SEATTLE |
| State | WA |
| Amount obligated | $279,533 |
| Principal investigator | Benjamin Williams |
| Program | GALACTIC ASTRONOMY PROGRAM |
| Start date | 09/01/2025 |
| Abstract | The final stages in the evolution of the most massive stars play a crucial role in astrophysics, injecting energy and enriched metals into the interstellar medium, and producing compact objects – neutron stars, black holes, and the wide range of transient phenomena associated with them. The predictive power of theoretical models for massive stars, however, is severely limited by the large uncertainties associated with this regime of stellar evolution. The project will constrain some of the most |
| Source | NSF Awards |
$799/mo
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