Related papers: Dissipative stabilization of maximal entanglement between non-identical emitters via two-photon excitation

Dissipative stabilization of maximal entanglement between non-identical emitters via two-photon excitation

URL: http://arxiv.org/abs/2306.06028v2
Date: Thu, 21 Dec 2023 11:40:38 GMT
Title: Dissipative stabilization of maximal entanglement between non-identical emitters via two-photon excitation
Authors: Alejandro Vivas-Via\~na, Diego Mart\'in-Cano, Carlos S\'anchez Mu\~noz
Abstract summary: Two non-identical quantum emitters, when placed within a cavity and coherently excited at the two-photon resonance, can reach stationary states of nearly maximal entanglement. We show that this mechanism is merely one among a complex family of phenomena that can generate both stationary and metastable entanglement when driving the emitters at the two-photon resonance.
Score: 49.1574468325115
License: http://creativecommons.org/licenses/by/4.0/
Abstract: Two non-identical quantum emitters, when placed within a cavity and coherently excited at the two-photon resonance, can reach stationary states of nearly maximal entanglement. In Vivas-Via\~na et al., we introduce a frequency-resolved Purcell effect stabilizing entangled $W$ states among strongly interacting quantum emitters embedded in a cavity. Here, we delve deeper into a specific configuration with a particularly rich phenomenology: two interacting quantum emitters under coherent excitation at the two-photon resonance. This scenario yields two resonant cavity frequencies where the combination of two-photon driving and Purcell-enhanced decay stabilizes the system into the sub- and superradiant states, respectively. By considering the case of non-degenerate emitters and exploring the parameter space of the system, we show that this mechanism is merely one among a complex family of phenomena that can generate both stationary and metastable entanglement when driving the emitters at the two-photon resonance. We provide a global perspective of this landscape of mechanisms and contribute analytical characterizations and insights into these phenomena, establishing connections with previous reports in the literature and discussing how some of these effects can be optically detected.

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