A paper by Hontas Farmer of Malcolm X College resolves the black hole firewall debate by computing the temperature of a Planck mass black hole. The work predicts the Hawking radiation temperature for a quantum collapsing into such a black hole. The temperature is calculated to be 1.410 septillion Kelvin, lasting for about one Planck time.
Use Cases
- Testing theoretical models of black hole evaporation based on the predicted temperature.
- Analyzing the implications of extreme Planck-scale temperatures for quantum gravity.
- Studying the duration and intensity of Hawking radiation events from micro black holes.
Strengths
- The paper provides a precise numerical prediction of 1.410 septillion Kelvin.
- It is published under an Open Access (diamond) license, ensuring free availability.
Limitations
- The description metadata is limited; actual data quality requires manual inspection after download.
- Column-level documentation is absent; field semantics must be inferred after download.
Provenance
- Source
- paperswithcode
- Collection Method
- Theoretical calculation based on previously published work on black hole temperature.