Abstract

Quantum entanglement is an important and often necessary resource for quantum information processing e.g. the measurement-based quantum computer [1]. Current protocols for generating entanglement between emitters assume near identical spectral properties [2-3], which is a major obstacle for using integrated solid-state emitters in photonic structures as a scalable platform. The solid-state emitters can vary significantly from one another in terms of both lifetimes and central energies due to imperfections during fabrication and therefore need to be tuned into resonance e.g. electrically [4]. The requirement for local tuning of emitters provides a barrier to scalability.

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