Researchers Quantify Uncertainties in Upper Edge of Black Hole Mass Gap

Researchers Quantify Uncertainties in Upper Edge of Black Hole Mass Gap

Researchers conducted a series of simulations to assess how variations in stellar-evolution inputs influence the upper boundary of the pair-instability supernova black-hole mass gap. The analysis showed that theoretical uncertainty is largely driven by nuclear reaction rates. The 12C(α,γ)16O reaction and the triple-α process were identified as the dominant contributors to this uncertainty.

The findings were reported by Sciencecast. The study highlights the need for more precise measurements of these nuclear rates to improve black-hole mass predictions.

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July 01, 2026
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Study Quantifies Uncertainties in Upper Edge of Pair-Instability Black Hole Mass Gap
Study Quantifies Uncertainties in Upper Edge of Pair-Instability Black Hole Mass Gap

Sciencecast • 01 Jul 07:56

Simulations show that nuclear reaction rates, especially the 12C(α,γ)16O and triple-α processes, dominate the theoretical uncertainty of the upper boundary of the pair-instability supernova black-hole mass gap.

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