Cavity quantum electrodynamics on a nanocapillay fiber using a composite photonic crystal symmetric cavity
Srinu Gadde, Jelba John, Elaganuru Bashaiah, and Ramachandrarao Yalla
TL;DR
This paper demonstrates cavity quantum electrodynamics using a novel composite photonic crystal symmetric cavity on a nanocapillary fiber, achieving high efficiency and enabling quantum photon manipulation.
Contribution
It introduces a new cavity design combining a nanocapillary fiber and a nano-grating for enhanced quantum electrodynamics performance.
Findings
Achieved up to 87% channeling efficiency.
Demonstrated manipulation of single photons.
Established a platform for quantum technology applications.
Abstract
We report the cavity quantum electrodynamics conditions using a composite photonic crystal symmetric cavity (CPCSC) on an optical nanocapillary fiber (NCF). The CPCSC is formed by combining the NCF and the symmetric defect mode nano-grating. The maximum channeling efficiency up to 87% is realized by placing the single quantum emitter at the anti-node position of the CPCSC. The current platform paves the way for manipulating single photons with applications in quantum technology.
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Taxonomy
TopicsPhotonic Crystals and Applications · Photonic Crystal and Fiber Optics · Strong Light-Matter Interactions