Emerging material platforms for integrated microcavity photonics
Many breakthroughs in technologies are closely associated with the deep understanding
and development of new material platforms. As the main material used in microelectronics …
and development of new material platforms. As the main material used in microelectronics …
A monolithic graphene‐functionalized microlaser for multispecies gas detection
Y Guo, Z Li, N An, Y Guo, Y Wang, Y Yuan… - Advanced …, 2022 - Wiley Online Library
Optical‐microcavity‐enhanced light–matter interaction offers a powerful tool to develop fast
and precise sensing techniques, spurring applications in the detection of biochemical …
and precise sensing techniques, spurring applications in the detection of biochemical …
Noise canceled graphene-microcavity fiber laser sensor for ultrasensitive gas detection
Y Wang, Y Li, Y Li, H Zhang, Z Liu, Y Guo… - Photonics …, 2023 - opg.optica.org
Optical microcavities offer a promising platform for highly efficient light–matter interactions.
Recently, the combination of microresonators and 2D materials in the nanoscale has further …
Recently, the combination of microresonators and 2D materials in the nanoscale has further …
[HTML][HTML] Hybrid integration of 2D materials for on-chip nonlinear photonics
Interests surrounding the development of on-chip nonlinear optical devices have been
consistently growing in the past decades due to the tremendous applications, such as …
consistently growing in the past decades due to the tremendous applications, such as …
[HTML][HTML] Brillouin lasers in a graphene microresonator for multispecies and individual gas molecule detection
Optical microcavities offer a promising platform for highly efficient light–matter interactions.
Recently, the combination of microresonators and 2D materials in nanoscale has further …
Recently, the combination of microresonators and 2D materials in nanoscale has further …
Optical Microcavities Empowered Biochemical Sensing: Status and Prospects
Optical microcavities are compact structures that confine resonant photons in microscale
dimensions for long periods of time, greatly enhancing light–matter interactions. Plentiful …
dimensions for long periods of time, greatly enhancing light–matter interactions. Plentiful …
Demonstration of passively Q-switched and mode-locked operations through dispersion control in Er-doped fiber lasers with a cylindrite-based saturable absorber
S Sun, F Yang, Z Sui, M Zhu, S Chen, Y Wang… - Journal of …, 2022 - Elsevier
Abstract Two-dimensional (2D) materials have been extensively investigated in the fields of
electronics, biology, and chemistry. Especially in the field of optoelectronics, profiting from …
electronics, biology, and chemistry. Especially in the field of optoelectronics, profiting from …
Machine learning identifies liquids employing a simple fiber-optic tip sensor
We proposed an extremely simple fiber-optic tip sensor system to identify liquids by
combining their corresponding droplet evaporation events with analyses using machine …
combining their corresponding droplet evaporation events with analyses using machine …
Graphene‐assisted synthesis NH3 gas sensor based on silicon photonics crystal fiber and surface plasmon resonance
Objective In this article, we theoretically simulated a silicon core-based photonics crystal
fiber combined with the Au/graphene coating thin-film to surround the fiber-air-holes with a …
fiber combined with the Au/graphene coating thin-film to surround the fiber-air-holes with a …
Polarimetric fiber laser for relative humidity sensing based on graphene oxide-coated D-shaped fiber and beat frequency demodulation
We first propose and demonstrate a polarimetric fiber laser system for relative humidity (RH)
sensing based on the beat frequency demodulation. A graphene oxide-coated D-shaped …
sensing based on the beat frequency demodulation. A graphene oxide-coated D-shaped …