Statut | Confirmé |
Série | SEM-EXCEP |
Domaines | cond-mat |
Date | Jeudi 2 Mai 2024 |
Heure | 14:00 |
Institut | LPTMC |
Salle | LPTMC seminar room, Jussieu, towers 12-13, 5th floor, room 523 |
Nom de l'orateur | Meidan |
Prenom de l'orateur | Dganit |
Addresse email de l'orateur | dganit [at] bgu [dot] ac [dot] il |
Institution de l'orateur | BGU |
Titre | Theory of free fermion dynamics from monitored to post selected evolution |
Résumé | Monitored quantum systems undergo Measurement-induced Phase Transitions (MiPTs) stemming from the interplay between measurements and unitary dynamics. When the detector readout is post- selected to match a given value, the dynamics is generated by a Non-Hermitian Hamiltonian with MiPTs characterized by different universal features. Here, we derive a partial post-selected stochastic Schrodinger equation based on a microscopic description of continuous weak measurement. This formalism connects the monitored and post-selected dynamics to a broader family of stochastic evolution. We apply the formalism to a chain of free fermions subject to partial post-selected monitoring of local fermion parities. Within a 2-replica approach, we obtained an effective bosonized Hamiltonian in the strong post-selected limit. Using a renormalization group analysis, we find that the universality of the non-Hermitian MiPT is stable against a finite (weak) amount of stochasticity. We further show that the passage to the monitored universality occurs abruptly at finite partial post-selection, which we confirm from the numerical finite size scaling of the MiPT. Our approach establishes a way to study MiPTs for arbitrary subsets of quantum trajectories and provides a potential route to tackle the experimental post-selected problem. |
Numéro de preprint arXiv | |
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