Butterfly velocities for holographic theories of general spacetimes

Abstract

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Abstract The butterfly velocity characterizes the spread of correlations in a quantum system. Recent work has provided a method of calculating the butterfly velocity of a class of boundary operators using holographic duality. Utilizing this and a presumed extension of the canonical holographic correspondence of AdS/CFT, we investigate the butterfly velocities of operators with bulk duals living in general spacetimes. We analyze some ubiquitous issues in calculating butterfly velocities using the bulk effective theory, and then extend the previously proposed method to include operators in entanglement shadows. We explicitly compute butterfly velocities for bulk local operators in the holographic theory of flat Friedmann-Robertson-Walker spacetimes and find a universal scaling behavior for the spread of operators in the boundary theory, independent of dimension and fluid com-ponents. This result may suggest that a Lifshitz field theory with z = 4 is the appropriate holographic dual for these spacetimes.

Keywords

• Models of Quantum Gravity
• AdS-CFT Correspondence
• Holography and condensed matter physics (AdS/CMT)