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Park, Kyoung-Duck
Nano-PhotoEnergy Group at UNIST Physics
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Nano-Cavity QED with Tunable Nano-Tip Interaction

DC Field Value Language May, Molly A. ko Fialkow, David ko Wu, Tong ko Park, Kyoung-Duck ko Leng, Haixu ko Kropp, Jaron A. ko Gougousi, Theodosia ko Lalanne, Philippe ko Pelton, Matthew ko Raschke, Markus B. ko 2022-12-30T04:09:16Z - 2022-12-28 ko 2020-02 ko
dc.identifier.citation ADVANCED QUANTUM TECHNOLOGIES, v.3, no.2 ko
dc.identifier.issn 2511-9044 ko
dc.identifier.uri -
dc.description.abstract Quantum state control of two-level emitters is fundamental for many information processing, metrology, and sensing applications. However, quantum-coherent photonic control of solid-state emitters has traditionally been limited to cryogenic environments, which are not compatible with implementation in scalable, broadly distributed technologies. In contrast, plasmonic nano-cavities with deep sub-wavelength mode volumes have recently emerged as a path toward room temperature quantum control. However, optimization, control, and modeling of the cavity mode volume are still in their infancy. Here recent demonstrations of plasmonic tip-enhanced strong coupling (TESC) with a configurable nano-tip cavity are extended to perform a systematic experimental investigation of the cavity-emitter interaction strength and its dependence on tip position, augmented by modeling based on both classical electrodynamics and a quasinormal mode framework. Based on this work, a perspective for nano-cavity optics is provided as a promising tool for room temperature control of quantum coherent interactions that could spark new innovations in fields from quantum information and quantum sensing to quantum chemistry and molecular opto-mechanics. ko
dc.language 영어 ko
dc.publisher WILEY ko
dc.title Nano-Cavity QED with Tunable Nano-Tip Interaction ko
dc.type ARTICLE ko
dc.identifier.scopusid 2-s2.0-85086820286 ko
dc.identifier.wosid 000548091400018 ko
dc.type.rims ART ko
dc.identifier.doi 10.1002/qute.201900087 ko
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