Wednesday, January 9, 2013

1301.1651 (Guy F. de Teramond et al.)

Kinematical and Dynamical Aspects of Higher-Spin Bound-State Equations
in Holographic QCD
   [PDF]

Guy F. de Teramond, Hans Gunter Dosch, Stanley J. Brodsky
In this paper we derive holographic wave equations for hadrons with arbitrary spin starting from an effective action in a higher-dimensional space asymptotic to anti-de Sitter (AdS) space. Our procedure takes advantage of the local tangent frame, and it applies to all spins, including half-integer spins. An essential element is the mapping of the higher-dimensional equations of motion to the light-front Hamiltonian, thus allowing a clear distinction between the kinematical and dynamical aspects of the holographic approach to hadron physics. Accordingly, the non-trivial geometry of pure AdS space encodes the kinematics, and the additional deformations of AdS space encode the dynamics, including confinement. It thus becomes possible to identify the features of holographic QCD which are independent of the specific mechanisms of conformal symmetry breaking. In particular, we account for some aspects of the striking similarities and differences observed in the systematics of the meson and baryon spectra.
View original: http://arxiv.org/abs/1301.1651

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