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First Direct Measurement of Mg22(α,p)Al25 and Implications for X-Ray Burst Model-Observation Comparisons
- Randhawa, JS;
- Ayyad, Y;
- Mittig, W;
- Meisel, Z;
- Ahn, T;
- Aguilar, S;
- Alvarez-Pol, H;
- Bardayan, DW;
- Bazin, D;
- Beceiro-Novo, S;
- Blankstein, D;
- Carpenter, L;
- Cortesi, M;
- Cortina-Gil, D;
- Gastis, P;
- Hall, M;
- Henderson, S;
- Kolata, JJ;
- Mijatovic, T;
- Ndayisabye, F;
- O’Malley, P;
- Pereira, J;
- Pierre, A;
- Robert, H;
- Santamaria, C;
- Schatz, H;
- Smith, J;
- Watwood, N;
- Zamora, JC
- et al.
Published Web Location
https://doi.org/10.1103/physrevlett.125.202701Abstract
Type-I x-ray bursts can reveal the properties of an accreting neutron star system when compared with astrophysics model calculations. However, model results are sensitive to a handful of uncertain nuclear reaction rates, such as ^{22}Mg(α,p). We report the first direct measurement of ^{22}Mg(α,p), performed with the Active Target Time Projection Chamber. The corresponding astrophysical reaction rate is orders of magnitude larger than determined from a previous indirect measurement in a broad temperature range. Our new measurement suggests a less-compact neutron star in the source GS1826-24.
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