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Main Author: Yoshikawa, Shiki
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2605.25481
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author Yoshikawa, Shiki
author_facet Yoshikawa, Shiki
contents We study how bulk propagation in global AdS$_3$ is encoded in boundary energy densities of the dual CFT$_2$ on the cylinder. A key feature of the global geometry, which is absent in the Poincaré-patch description, is that a null excitation emitted from the boundary reaches the antipodal boundary point after $Δτ=π$ and returns to the original boundary point after $Δτ=2π$. We show that this periodic boundary-to-boundary propagation is reflected in the CFT energy density as chiral peaks that meet at the antipodal point and reappear after one global period. For a wave-packet state, the leading energy density consists of two chiral peaks moving along the boundary light-cone directions; their relative weights encode the impact parameter of the corresponding bulk null ray. For a state constructed from an operator of large conformal dimension with a Euclidean time regulator (LCD state), the exact cylinder stress tensor gives two periodic chiral pulses moving along the boundary light-cone directions. These pulses reach the antipodal point and return to the original point at the same global times as the radial null geodesic in the bulk. Thus the boundary energy density captures the boundary-to-boundary propagation and periodicity of localized bulk excitations in global AdS$_3$.
format Preprint
id arxiv_https___arxiv_org_abs_2605_25481
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Bulk Motion in Global AdS$_3$ from the Boundary Energy-Density Perspective
Yoshikawa, Shiki
High Energy Physics - Theory
We study how bulk propagation in global AdS$_3$ is encoded in boundary energy densities of the dual CFT$_2$ on the cylinder. A key feature of the global geometry, which is absent in the Poincaré-patch description, is that a null excitation emitted from the boundary reaches the antipodal boundary point after $Δτ=π$ and returns to the original boundary point after $Δτ=2π$. We show that this periodic boundary-to-boundary propagation is reflected in the CFT energy density as chiral peaks that meet at the antipodal point and reappear after one global period. For a wave-packet state, the leading energy density consists of two chiral peaks moving along the boundary light-cone directions; their relative weights encode the impact parameter of the corresponding bulk null ray. For a state constructed from an operator of large conformal dimension with a Euclidean time regulator (LCD state), the exact cylinder stress tensor gives two periodic chiral pulses moving along the boundary light-cone directions. These pulses reach the antipodal point and return to the original point at the same global times as the radial null geodesic in the bulk. Thus the boundary energy density captures the boundary-to-boundary propagation and periodicity of localized bulk excitations in global AdS$_3$.
title Bulk Motion in Global AdS$_3$ from the Boundary Energy-Density Perspective
topic High Energy Physics - Theory
url https://arxiv.org/abs/2605.25481