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Related Experiment Video

Updated: Mar 29, 2026

Fabrication and Operation of a Nano-Optical Conveyor Belt
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Local Operators in the Eternal Black Hole.

Kyriakos Papadodimas1, Suvrat Raju2

  • 1Van Swinderen Institute for Particle Physics and Gravity, University of Groningen, Nijenborgh 4, 9747 AG Groningen, The Netherlands and Theory Group, Physics Department, CERN, CH-1211 Geneva 23, Switzerland.

Physical Review Letters
|December 5, 2015
PubMed
Summary
This summary is machine-generated.

States in the AdS/CFT correspondence dual to eternal black holes can be probed using gauge-invariant relational observables. These observables, analyzed via effective field theory, reveal state-dependent bulk-boundary maps crucial for understanding the black hole interior.

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Area of Science:

  • Theoretical physics
  • Quantum gravity
  • String theory

Background:

  • The AdS/CFT correspondence links gravitational theories in Anti-de Sitter (AdS) space to conformal field theories (CFTs) on its boundary.
  • Thermofield double states are crucial for understanding black hole thermodynamics and the emergence of spacetime in holographic contexts.
  • Eternal black holes in AdS/CFT are dual to specific thermofield double states evolved under Hamiltonian evolution.

Purpose of the Study:

  • To define and analyze gauge-invariant relational observables that probe the interior of black holes dual to evolved thermofield double states.
  • To constrain the properties of these black hole states using effective field theory methods.
  • To connect these observables to the black hole information paradox and construct explicit state-dependent bulk-boundary maps.

Main Methods:

  • Utilizing the AdS/CFT correspondence to relate boundary states to bulk geometries.
  • Applying Hamiltonian evolution to thermofield double states.
  • Employing gauge-invariant relational observables to probe the black hole interior.
  • Using effective field theory to constrain observable properties.
  • Adapting recent formulations of the black hole information paradox.

Main Results:

  • States evolved from the thermofield double are dual to eternal black hole geometries with specific boundary conditions.
  • Gauge-invariant relational observables successfully probe the black hole interior in these holographic states.
  • Effective field theory analysis constrains the properties of these observables.
  • The study demonstrates that these observables necessitate state-dependent bulk-boundary maps.

Conclusions:

  • The constructed observables provide a novel way to study the black hole interior within the AdS/CFT framework.
  • State-dependent bulk-boundary maps are essential for a consistent description of these observables and the holographic duality.
  • This work offers insights into resolving the black hole information paradox through a relational observable perspective.