Quantum sensing with optically accessible spin defects in van der Waals layered materials
Quantum sensing has emerged as a powerful technique to detect and measure physical and
chemical parameters with exceptional precision. One of the methods is to use optically …
chemical parameters with exceptional precision. One of the methods is to use optically …
Low-symmetry vacancy-related spin qubit in hexagonal boron nitride
Point defect qubits in semiconductors have demonstrated their outstanding capabilities for
high spatial resolution sensing generating broad multidisciplinary interest. Hexagonal boron …
high spatial resolution sensing generating broad multidisciplinary interest. Hexagonal boron …
Low-dimensional solid-state single-photon emitters
Solid-state single-photon emitters (SPEs) are attracting significant attention as fundamental
components in quantum computing, communication, and sensing. Low-dimensional …
components in quantum computing, communication, and sensing. Low-dimensional …
Room temperature polarization-resolved Raman and photoluminescence in uniaxially strained layered MoS2
Transition metal dichalcogenides (TMDCs) are one of the material systems of choice toward
achieving room temperature quantum coherence. Externally applied strain is used as a …
achieving room temperature quantum coherence. Externally applied strain is used as a …
Emission dynamics of optically driven aluminum nitride quantum emitters
Aluminum nitride is a technologically important wide band-gap semiconductor which has
been shown to host bright quantum emitters. We use photon emission correlation …
been shown to host bright quantum emitters. We use photon emission correlation …
Defect density quantification in monolayer MoS2 using helium atom micro-diffraction
2D materials continue to be pivotal in the advancement of modern devices. Their
optoelectronic, mechanical and thermal properties can be finely modulated using a variety of …
optoelectronic, mechanical and thermal properties can be finely modulated using a variety of …
Double Etch Method for the Fabrication of Nanophotonic Devices from van der Waals Materials
OC Schaeper, L Spencer, D Scognamiglio… - ACS …, 2024 - ACS Publications
The integration of van der Waals (vdW) materials into photonic devices has laid out a
foundation for many new quantum and optoelectronic applications. Despite tremendous …
foundation for many new quantum and optoelectronic applications. Despite tremendous …
Detecting and Imaging of Magnons at Nanoscale with van der Waals Quantum Sensor
HX Zang, W Jiang, NJ Guo, Y Liu… - Advanced Functional …, 2024 - Wiley Online Library
Magnonic devices are extensively studied for energy‐efficient information processing. High
spatial resolution and high accuracy measurement is required to characterize the excitation …
spatial resolution and high accuracy measurement is required to characterize the excitation …
Single nuclear spin detection and control in a van der Waals material
Optically active spin defects in solids are leading candidates for quantum sensing and
quantum networking. Recently, single spin defects were discovered in hexagonal boron …
quantum networking. Recently, single spin defects were discovered in hexagonal boron …
Continuous drive heterodyne microwave sensing with spin qubits in hexagonal boron nitride
Quantum sensors that use solid state spin defects have emerged as effective probes of weak
alternating magnetic signals. By recording the phase of a signal relative to an external clock …
alternating magnetic signals. By recording the phase of a signal relative to an external clock …