The time evolution of a quantum state with short-range correlations after a quench to a one-dimensional critical Hamiltonian can be understood using the quasiparticle picture, which states that local entanglement spreads as if it was carried by quasiparticles which separate at a fixed speed. We extend the quasiparticle picture using the recently introduced link representation of entanglement, allowing us to apply it to initial states presenting long-range correlations. The entanglement links are current correlators, and therefore follow a wave equation on the appropriate configurational space which allows us to predict the time evolution of the entanglement entropies. Our results are checked numerically for free fermionic chains with different initial entanglement patterns.
Entanglement links and the quasiparticle picture / Santalla Silvia, N; Ramírez, Giovanni; Singha Roy, Sudipto; Sierra, Germán; Rodríguez-Laguna, Javier. - In: PHYSICAL REVIEW. B. - ISSN 2469-9969. - ELETTRONICO. - 2023:12(2023), pp. L121114-L121114. [10.1103/PhysRevB.107.L121114]
Entanglement links and the quasiparticle picture
Singha Roy Sudipto;
2023-01-01
Abstract
The time evolution of a quantum state with short-range correlations after a quench to a one-dimensional critical Hamiltonian can be understood using the quasiparticle picture, which states that local entanglement spreads as if it was carried by quasiparticles which separate at a fixed speed. We extend the quasiparticle picture using the recently introduced link representation of entanglement, allowing us to apply it to initial states presenting long-range correlations. The entanglement links are current correlators, and therefore follow a wave equation on the appropriate configurational space which allows us to predict the time evolution of the entanglement entropies. Our results are checked numerically for free fermionic chains with different initial entanglement patterns.File | Dimensione | Formato | |
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