Speaker: Manuel Del Piano, PhD student at Scuola Superiore Meridionale (SSM)
Abstract:
In this presentation, we discuss how recent advances in black hole physics can inform our understanding of Hawking radiation from astrophysical events. By leveraging the large D limit of General Relativity, we gain a simplified yet powerful framework to describe higher-dimensional black hole dynamics. Additionally, insights into the instability of ultra-spinning black holes open up possibilities for new, exotic black hole configurations. These theoretical tools are instrumental in refining predictions for the detection of Hawking radiation from black hole mergers.
References:
Location:
You can also (passcode: 060379).
The event is open to all.
Abstract:
In this presentation, we discuss how recent advances in black hole physics can inform our understanding of Hawking radiation from astrophysical events. By leveraging the large D limit of General Relativity, we gain a simplified yet powerful framework to describe higher-dimensional black hole dynamics. Additionally, insights into the instability of ultra-spinning black holes open up possibilities for new, exotic black hole configurations. These theoretical tools are instrumental in refining predictions for the detection of Hawking radiation from black hole mergers.
References:
Location:
You can also (passcode: 060379).
The event is open to all.
- Organizer: Quantum Field Theory Center
- Address:
- Contact Email: damiapaciarinim@qtc.sdu.dk
- Add to your calendar: