Classical and quantum chaos of closed strings on a charged confining holographic background
Abstract
We discuss the classical and quantum chaos of closed strings on a recently constructed charged confining holographic background. The confining background corresponds to the charged soliton, which is a solution of minimal d=5 gauged supergravity. The solution has a compact spacelike direction with a Wilson line on a circle and asymptotes to AdS5 with a planar boundary. For the classical case, we analyze the chaos using the power spectrum, Poincar\'e sections, and Lyapunov exponents, finding that both energy and charge play constructive effects on enhancing the chaotic nature of the system. We similarly analyze quantum chaos using the distribution of the spectrum's level-spacing and out-of-time-ordered correlators and thoroughly investigate the effects of charge and energy. A gradual transition from a chaotic to an integrable regime is obtained as the energy and charge increase from lower to higher values, with charge playing a subdominant role.
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