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arxiv: 2511.17098 · v2 · pith:YDYPO4WVnew · submitted 2025-11-21 · ✦ hep-th · gr-qc

Entanglement first law for timelike entanglement entropy and linearized Einstein's equation

classification ✦ hep-th gr-qc
keywords entanglementfirsttimelikelinearizedeinsteinentropyequationsresult
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We extend the entanglement first law of conformal field theory (CFT) to timelike subregions. Focusing on intervals along the time direction of the boundary CFT, we show that the associated timelike entanglement entropy obeys a first-law-like relation, with an effective entanglement temperature inversely proportional to the temporal size of the interval. By implementing a double Wick rotation, we obtain the exact modular Hamiltonian for a suitable hyperbolic subsystem and use it to formulate the timelike entanglement first law precisely. Our central result is a detailed proof that, in asymptotically Anti-de Sitter spacetime, this timelike entanglement first law is equivalent to linearized Einstein's equations in the bulk: the first law follows from the linearized equations and, conversely, implies them. Our result further reveal the dynamical connections between entanglement and gravity.

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