On Chord Dynamics and Complexity Growth in Double-Scaled SYK
- URL: http://arxiv.org/abs/2411.04251v1
- Date: Wed, 06 Nov 2024 20:43:22 GMT
- Title: On Chord Dynamics and Complexity Growth in Double-Scaled SYK
- Authors: Jiuci Xu,
- Abstract summary: We investigate the time evolution generated by the two-sided chord Hamiltonian in the double-scaled SYK model.
We show how distinct semi-classical behaviors emerge by localizing within specific regions of the energy spectrum in the semi-classical limit.
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- Abstract: We investigate the time evolution generated by the two-sided chord Hamiltonian in the double-scaled SYK model, which produces a probability distribution over operators in the double-scaled algebra. Via the bulk-to-boundary map, this distribution translates into dynamic profiles of bulk states within the chord Hilbert space. We derive analytic expressions for these states, valid across a wide parameter range and at all time scales. Additionally, we show how distinct semi-classical behaviors emerge by localizing within specific regions of the energy spectrum in the semi-classical limit. We reformulate the doubled Hilbert space formalism as an isometric map between the one-particle sector of the chord Hilbert space and the doubled zero-particle sector. Using this map, we obtain analytic results for correlation functions and examine the dynamical properties of operator Krylov complexity for chords, establishing an equivalence between the chord number generating function and the crossed four-point correlation function. We also consider finite-temperature effects, showing how operator spreading slows as temperature decreases. In the semi-classical limit, we apply a saddle point analysis and include the one-loop determinant to derive the normalized time-ordered four-point correlation function. The leading correction mirrors the \(1/N\) connected contribution observed in the large-\(p\) SYK model at infinite temperature. Finally, we analyze the time evolution of operator Krylov complexity for a matter chord in the triple-scaled regime, linking it to the renormalized two-sided length in JT gravity with matter.
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