Lorentzian spinfoam gravity path integral and geometrical area-law entanglement entropy

Abstract

This paper investigates entanglement entropy in 3+1 dimensional Lorentzian covariant Loop Quantum Gravity (LQG). We compute the entanglement entropy for a spatial region from states dynamically generated by a spinfoam path integral that sums over a family of 2-complexes. The resulting entropy exhibits a geometric area law, S β a, where the area a of the entangling surface is determined by the LQG area spectrum and the leading coefficient β>0 is independent of the underlying 2-complexes. By relating the coupling constant of the sum over 2-complexes to the Barbero-Immirzi parameter γ, we reproduce the Bekenstein-Hawking formula for the range 0 < γ 1/2. This work provides a Lorentzian path integral approach to gravitational entropy without the need for contour prescriptions.

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