Hybrid quantum nanophotonic devices with color centers in nanodiamonds
Optically active color centers in nanodiamonds offer unique opportunities for generating and
manipulating quantum states of light. These mechanically, chemically, and optically robust …
manipulating quantum states of light. These mechanically, chemically, and optically robust …
Greatly enhanced emission from spin defects in hexagonal boron nitride enabled by a low-loss plasmonic nanocavity
The negatively charged boron vacancy (VB–) defect in hexagonal boron nitride (hBN) with
optically addressable spin states has emerged due to its potential use in quantum sensing …
optically addressable spin states has emerged due to its potential use in quantum sensing …
Ultrafast quantum photonics enabled by coupling plasmonic nanocavities to strongly radiative antennas
Quantum emitters coupled to plasmonic nanostructures can act as exceptionally bright
sources of single photons, operating at room temperature. Plasmonic mode volumes …
sources of single photons, operating at room temperature. Plasmonic mode volumes …
Machine learning for integrated quantum photonics
Realization of integrated quantum photonics is a key step toward scalable quantum
applications such as quantum computing, sensing, information processing, and quantum …
applications such as quantum computing, sensing, information processing, and quantum …
Rapid classification of quantum sources enabled by machine learning
Deterministic nanoassembly may enable unique integrated on‐chip quantum photonic
devices. Such integration requires a careful large‐scale selection of nanoscale building …
devices. Such integration requires a careful large‐scale selection of nanoscale building …
Fast relaxation on qutrit transitions of nitrogen-vacancy centers in nanodiamonds
Thanks to their versatility, nitrogen-vacancy (NV) centers in nanodiamonds have been
widely adopted as nanoscale sensors. However, their sensitivities are limited by their short …
widely adopted as nanoscale sensors. However, their sensitivities are limited by their short …
Chip‐Compatible Quantum Plasmonic Launcher
Integrated on‐demand single‐photon sources are critical for the implementation of photonic
quantum information processing systems. To enable practical quantum photonic devices …
quantum information processing systems. To enable practical quantum photonic devices …
Local ferromagnetic resonance measurements of mesoscopically patterned ferromagnets using deterministically placed nanodiamonds
Nitrogen-vacancy centers in diamond have recently been established as effective sensors of
the magnetization dynamics in vicinal ferromagnetic materials. We demonstrate sub-100-nm …
the magnetization dynamics in vicinal ferromagnetic materials. We demonstrate sub-100-nm …
Excitation, Generation, Positioning, and Modulation for Quantum Light Sources Integrated on Chip
C Wu, C Ma, Z Wang - Integrated Nanophotonics: Platforms …, 2023 - Wiley Online Library
Quantum emitters are deterministic quantum light sources that can be used for on‐chip
integration. Based on the current quantum emitters, integrating them with nanostructures can …
integration. Based on the current quantum emitters, integrating them with nanostructures can …
Xenon implantation of nanodiamond films for targeted color center emission at sub-nanosecond time scales
O Akomolede, P Bermel - Optical Materials Express, 2021 - opg.optica.org
In this work, the lifetime of nitrogen-vacancy color centers within nanodiamonds is reduced
from 550±13 ps to 297±10 ps through the implantation of xenon. Coupled-mode analysis is …
from 550±13 ps to 297±10 ps through the implantation of xenon. Coupled-mode analysis is …