On-chip integrated quantum emitter with 'trap-enhance-guide': a simulation approach
Saha, Samprity
Fomra, Dhruv
Ozgur, Umit
Avrutin, Vitaly
Ndukaife, Justus C.
Kinsey, Nathaniel
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2022-12-19
Abstract
To address the challenges of developing a scalable system of an on-chip integrated quantum emitter, we propose to leverage the loss in our hybrid plasmonic-photonic structure to simultaneously achieve Purcell enhancement as well as on-chip maneuvering of nanoscale emitter via optical trapping with guided excitation-emission routes. In this report, we have analyzed the feasibility of the functional goals of our proposed system in the metric of trapping strength (-8KBT), Purcell factor (>1000-), and collection efficiency (-10%). Once realized, the scopes of the proposed device can be advanced to develop a scalable platform for integrated quantum technology.