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  Maldacena's decoupling argument

+ 3 like - 0 dislike
1388 views

I am a bit confused about Maldacena's original decoupling argument. There are two different low energy (i.e, $\alpha^\prime \to 0$) descriptions of the stack of D3-branes:

  1. $\mathcal{N}=4$ SYM and 10D type IIB SUGRA.

  2. Full type IIB superstring in $AdS_5 \times S^5$ and 10D type IIB SUGRA.

Comparing (1) and (2) (actually cancelling 10D SUGRA!) we obtain the celebrated AdS/CFT correspondence. I have the following questions regarding this argument.

  1. If one takes $\alpha^\prime \to 0$ it is same as taking $G_N \to 0$. Then how do the branes backreact to produce non-trivial background namely $AdS_5 \times S^5$?

  2. One arrives at the AdS/CFT correspondence by taking $\alpha^\prime \to 0$, by the above decoupling argument. Then how can one claim that there should be full string theory in $AdS_5 \times S^5$? I understand that any high-energy excitation will be infinitely red-shifted for the observer at infinity. But these are all happening at $\alpha^\prime \to 0$!

  3. Isn't full string theory defined only on asymptotically AdS rather than AdS? (I am not sure about this though.)

  4. Also the radius of the $S^5$ turns out to be same as $AdS_5$ scale, $L$. Now small $L$ means highly fluctuating string i.e., quantum gravity regime and thus notion of this classical backgrounds break down. Then how can one do Kaluza-Klein reduction of the $S^5$ ?


This post imported from StackExchange Physics at 2015-07-26 09:29 (UTC), posted by SE-user pinu

asked Jul 20, 2015 in Theoretical Physics by Physics Moron (285 points) [ revision history ]
edited Jul 26, 2015 by Dilaton

1 Answer

+ 2 like - 0 dislike
  1. The limit $\alpha'\rightarrow 0$ is understood in terms of an expansion in $\alpha'$, where the leading order term is given by supergravity. This does not mean that one cannot have solutions with curved spacetime. As $\alpha'=\ell_s^2$, where $\ell_s$ is the string length, this limit tells us what happens if we remove "stringiness", and as it turns out, we end up at pure (super-)gravity. Since string-effects are only apparent at high energies, this corresponds to going to the low-energy regime of the theory. The branes do not backreact on anything, they are solutions to supergravity. This follows from the equivalence of p-branes and D-branes, which was shown by Polchinski.
  2. This is part of the conjecture: it is not proven, one can just find evidence by doing calculations on both sides of the duality and see whether results match. One problem is that it is hard to go away from the supergravity limit, i.e. treat string theory nonperturbatively.
  3. One can define string theory on whatever space is appropriate, as long as it is asymptotically AdS, since that is what is needed for the conjecture to hold. Fields on the gravity side act as sources for CFT operators, and the identification is made by matching partition functions at the boundary.
  4. You are right, in the case of small radius, the supergravity approximation is no longer valid and the setup is hard to treat. This is precisely why most calculations are done in the supergravity limit, which happens to be dual to the strongly coupled regime of the gauge theory.
This post imported from StackExchange Physics at 2015-07-26 09:29 (UTC), posted by SE-user Frederic Brünner
answered Jul 20, 2015 by Frederic Brünner (1,130 points) [ no revision ]
Thanks a lot for your response! Can you please comment on my 4th question which I have added later.

This post imported from StackExchange Physics at 2015-07-26 09:29 (UTC), posted by SE-user pinu
@pinu: I have expanded my answer.

This post imported from StackExchange Physics at 2015-07-26 09:29 (UTC), posted by SE-user Frederic Brünner
But people don't talk about the $S^5$ much even calculating in classical SUGRA.

This post imported from StackExchange Physics at 2015-07-26 09:29 (UTC), posted by SE-user pinu
@pinu: That depends on what you mean. The $S^5$ is actually quite important, since it determines the R-symmetry of the dual gauge theory.

This post imported from StackExchange Physics at 2015-07-26 09:29 (UTC), posted by SE-user Frederic Brünner
Sorry, I can vaguely remember Witten's "AdS space and holography". There he considered KK modes for scalar fields in AdS space. Probably I should look at that paper carefully. Anyway if you have any comments on this please let me know. Thanks again for replying!

This post imported from StackExchange Physics at 2015-07-26 09:29 (UTC), posted by SE-user pinu

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