Complexity of AdS_5 black holes with a rotating string
Koichi Nagasaki
TL;DR
This paper investigates the computational complexity of AdS_5 black holes with a boundary particle, providing constraints and insights for defining complexity in quantum field theories.
Contribution
It introduces a model with a boundary particle representing a string in AdS_5, offering new constraints on complexity in holographic systems.
Findings
Derived complexity constraints for AdS_5 black holes with a boundary particle
Provided insights into defining quantum field theory complexity
Linked boundary particle dynamics to bulk complexity measures
Abstract
We consider computational complexity of AdS_5 black holes. Our system contains a particle moving on the boundary of AdS. This corresponds to the insertion of a fundamental string in AdS_5 bulk spacetime. Our results give a constraint for complexity. This gives us a hint for defining complexity in quantum field theories.
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