Cavity-enhanced energy transfer between nano-emitters and monolayer graphene
Photonic cavities have been shown to efficiently control and enhance the Förster resonance
energy transfer (FRET) between point-like donors and acceptors. In this work, we …
energy transfer (FRET) between point-like donors and acceptors. In this work, we …
Enhancement of silicon vacancy fluorescence intensity in silicon carbide using a dielectric cavity
QC Hu, J Xu, QY Luo, HB Hu, PJ Guo, CY Liu, S Zhao… - Optics Letters, 2024 - opg.optica.org
Over the past decades, spin qubits in silicon carbide (SiC) have emerged as promising
platforms for a wide range of quantum technologies. The fluorescence intensity holds …
platforms for a wide range of quantum technologies. The fluorescence intensity holds …
Reflective dielectric cavity enhanced emission from hexagonal boron nitride spin defect arrays
Among the various kinds of spin defects in hBN, the negatively charged boron vacancy ($\rm
V_B^-$) spin defect that can be deterministically generated is undoubtedly a potential …
V_B^-$) spin defect that can be deterministically generated is undoubtedly a potential …
Reflective dielectric cavity enhanced emission from hexagonal boron nitride spin defect arrays
Among the various kinds of spin defects in hexagonal boron nitride (hBN), the negatively
charged boron vacancy (VB−) spin defect that can be site-specifically generated is …
charged boron vacancy (VB−) spin defect that can be site-specifically generated is …
Quantum coherence of a single NV center in a spin-cavity hybrid system
J Zhang, S Lin, J Wang, L Lou, W Zhu… - The European Physical …, 2022 - Springer
Hybrid interfaces between photonic cavities and quantum emitters are promising physical
platforms in the fields of quantum sensing, quantum metrology and quantum information …
platforms in the fields of quantum sensing, quantum metrology and quantum information …
Monolayer excitonic semiconductors integrated with Au quasi-periodic nanoterrace morphology on fused silica substrates for light-emitting devices
Two-dimensional transition metal dichalcogenides (TMDs) have a promising future in the
nanophotonics field due to their unique optoelectronic properties such as large exciton …
nanophotonics field due to their unique optoelectronic properties such as large exciton …