Exploring BPS Black Holes and AdS Black Holes

In summary, a BPS black hole is a background field configuration that preserves some amount of supersymmetry and saturates the BPS bound. They are useful for checking the Bekenstein formula for black hole entropy, but it is unlikely for them to form naturally. AdS black holes have positive heat capacity and differ from ordinary Schwarzschild black holes in various ways.
  • #1
wam_mi
81
1
Hi there,

(i) What does BPS black hole mean? Under what conditions can they form and where does it come from?

(ii) What is the difference between an AdS black hole and a ordinary Schwarzschild?



Thanks a lot!
 
Physics news on Phys.org
  • #2
Hi wam_mi,

A BPS black hole is a background field configuration of gravity and matter that preserves some amount of supersymmetry and saturates the BPS bound. As an example, extremal black holes are sometimes BPS. Configurations of such extremal black holes exert no force on each other because of an exact balance between gravitational and gauge forces (i.e. electromagnetism). One way to see the connection is to observe that the relationship between charge and mass implied by the force balance equation looks just like the saturated BPS bound.

BPS black holes are very useful as a conceptual tool because they often permit one to check the Bekenstein formula for the black hole entropy in terms of explicit microstates. However, the statement of the 3rd law of black hole mechanics is roughly that such objects cannot form naturally.

Perhaps the most famous example of such a relationship is the near horizon geometry of black D3 branes. You can begin with the IIB supergravity background describing a stack of black branes with non-zero five form flux. The five form flux tells you the number of branes involved. The near horizon limit of this geometry looks like AdS_5 x S^5 and preserves additional supersymmetry. This is roughly how AdS/CFT was discovered.

There are lots of differences between an AdS black hole and the usual flat space black hole. The most glaring difference is that the large AdS black hole has positive heat capacity unlike the Schwarzschild black hole. What sort of properties are you interested in?
 
Last edited:

1. What are BPS black holes and AdS black holes?

BPS (Bogomol'nyi-Prasad-Sommerfield) black holes are solutions to certain supersymmetric theories of gravity, meaning they preserve some of the symmetries of the theory. AdS (Anti-de Sitter) black holes are black holes that exist in an AdS spacetime, which is a type of curved spacetime that has a negative cosmological constant.

2. How do BPS black holes and AdS black holes differ from regular black holes?

BPS black holes have a number of unique properties, including having a supersymmetric charge and a mass that is related to the charge by a simple formula. AdS black holes also have distinct characteristics, such as a different form for their event horizon and the possibility of having a negative temperature.

3. What is the significance of studying BPS black holes and AdS black holes?

Studying BPS black holes and AdS black holes can provide insights into the nature of gravity and spacetime, as well as the behavior of matter at extreme conditions. They also have applications in string theory and other areas of theoretical physics.

4. How are BPS black holes and AdS black holes related?

BPS black holes can exist in an AdS spacetime and have a special relationship with the AdS spacetime, known as the attractor mechanism. This means that the properties of the black hole are determined solely by the charges it carries, rather than its initial conditions.

5. Are BPS black holes and AdS black holes real and observable?

While there is evidence for the existence of black holes in general, including BPS and AdS black holes, they are not directly observable due to their extreme gravitational pull. However, their effects on the surrounding matter and spacetime can be observed through various phenomena, such as gravitational lensing and the emission of Hawking radiation.

Similar threads

I String theory calculation of Extremal black hole entropy problem
    • Beyond the Standard Models
Replies
3
Views
2K
I Two recent tests of loop quantum gravity theory
    • Beyond the Standard Models
Replies
9
Views
491
A Can a black hole horizon act as a source of Chaos?
    • Beyond the Standard Models
Replies
0
Views
2K
A Why do we need a quantum correction for black hole entropy?
    • Beyond the Standard Models
Replies
9
Views
2K
A A Proposed Black Hole Entropy Calculation
    • Beyond the Standard Models
Replies
21
Views
3K
A What does the equation C = 12 J mean for black holes?
    • Beyond the Standard Models
Replies
29
Views
11K
I Photon behaviour across EH threshold
    • Beyond the Standard Models
Replies
1
Views
1K
A Double copies and the black hole electron
    • Beyond the Standard Models
Replies
7
Views
4K
B Black hole electromagnetic spectrum
    • Special and General Relativity
Replies
4
Views
394
B What is the actual shape of black holes?
    • Astronomy and Astrophysics
Replies
4
Views
218

Hot Threads

Recent Insights

Back
Top