From Black Holes to Glueballs: The QCD3 Tensor Glueball at Strong Coupling
Abstract
A strong coupling calculation of glueball masses based on the duality between supergravity and Yang-Mills theory is presented. Earlier work is extended to non-zero spin. Fluctuations in the gravitational metric lead to the 2++ state on the leading Pomeron trajectory with a mass relation: m(0++) < m(2++) < m(1-+). Contrary to expectation, the mass of our new 0++ state (m2=5.4573) associated with the graviton is smaller than the mass of the 0++ state (m2=11.588) from the dilaton, which in fact is exactly degenerate with the tensor 2++.
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