AdS/CFT four-point functions: How to succeed at z-integrals without really trying
Nuclear Physics B, 1999•Elsevier
A new method is discussed which vastly simplifies one of the two integrals over AdSd+ 1
required to compute exchange graphs for four-point functions of scalars in the AdS/CFT
correspondence. The explicit form of the bulk-to-bulk propagator is not required. Previous
results for scalar, gauge boson and graviton exchange are reproduced, and new results are
given for massive vectors. It is found that precisely for the cases that occur in the AdS5× S5
compactification of Type IIB supergravity, the exchange diagrams reduce to a finite sum of …
required to compute exchange graphs for four-point functions of scalars in the AdS/CFT
correspondence. The explicit form of the bulk-to-bulk propagator is not required. Previous
results for scalar, gauge boson and graviton exchange are reproduced, and new results are
given for massive vectors. It is found that precisely for the cases that occur in the AdS5× S5
compactification of Type IIB supergravity, the exchange diagrams reduce to a finite sum of …
A new method is discussed which vastly simplifies one of the two integrals over AdSd+1 required to compute exchange graphs for four-point functions of scalars in the AdS/CFT correspondence. The explicit form of the bulk-to-bulk propagator is not required. Previous results for scalar, gauge boson and graviton exchange are reproduced, and new results are given for massive vectors. It is found that precisely for the cases that occur in the AdS5×S5 compactification of Type IIB supergravity, the exchange diagrams reduce to a finite sum of graphs with quartic scalar vertices. The analogous integrals in n-point scalar diagrams for n>4 are also evaluated.
Elsevier
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