Progress of optomechanical micro/nano sensors: a review
Optomechanical sensing based on the coupling between mechanical motions and optical
resonances has attracted huge interest in sensor applications due to its small footprint, high …
resonances has attracted huge interest in sensor applications due to its small footprint, high …
Progress of infrared guided-wave nanophotonic sensors and devices
Nanophotonics, manipulating light–matter interactions at the nanoscale, is an appealing
technology for diversified biochemical and physical sensing applications. Guided-wave …
technology for diversified biochemical and physical sensing applications. Guided-wave …
High‐responsivity mid‐infrared black phosphorus slow light waveguide photodetector
Black phosphorus (BP) offers unique opportunities for mid‐infrared (MIR) waveguide
photodetectors due to its narrow direct bandgap and layered lattice structure. Further …
photodetectors due to its narrow direct bandgap and layered lattice structure. Further …
Heterogeneous wafer bonding technology and thin-film transfer technology-enabling platform for the next generation applications beyond 5G
Wafer bonding technology is one of the most effective methods for high-quality thin-film
transfer onto different substrates combined with ion implantation processes, laser irradiation …
transfer onto different substrates combined with ion implantation processes, laser irradiation …
Slow light bimodal interferometry in one-dimensional photonic crystal waveguides
Strongly influenced by the advances in the semiconductor industry, the miniaturization and
integration of optical circuits into smaller devices has stimulated considerable research …
integration of optical circuits into smaller devices has stimulated considerable research …
Recent progress in nanoplasmonics-based integrated optical micro/nano-systems
Nanoplasmonics deals with the collective oscillation of electrons at the surface of metallic
structures at the nanometer scale. It possesses advantages including nanofocusing of …
structures at the nanometer scale. It possesses advantages including nanofocusing of …
Photonic bandgap engineering in hybrid one-dimensional photonic crystals containing all-dielectric elliptical metamaterials
Metamaterials with negative permittivities or/and permeabilities greatly enrich photonic
bandgap (PBG) engineering in one-dimensional (1-D) photonic crystals (PhCs) …
bandgap (PBG) engineering in one-dimensional (1-D) photonic crystals (PhCs) …
Dispersion engineering and thermo-optic tuning in mid-infrared photonic crystal slow light waveguides on silicon-on-insulator
In this Letter, the design, fabrication, and characterization of slow light devices using
photonic crystal waveguides (PhCWs) in the mid-infrared wavelength range of 3.9–3.98 μm …
photonic crystal waveguides (PhCWs) in the mid-infrared wavelength range of 3.9–3.98 μm …
Integration of MEMS IR detectors with MIR waveguides for sensing applications
Waveguides have been utilized for label-free and miniaturized mid-infrared gas sensors that
operate on the evanescent field absorption principle. For integrated systems, photodetectors …
operate on the evanescent field absorption principle. For integrated systems, photodetectors …
Vernier effect-based tunable mid-infrared sensor using silicon-on-insulator cascaded rings
Vernier effect has been captivated as a promising approach to achieve high-performance
photonic sensors. However, experimental demonstration of such sensors in mid-infrared …
photonic sensors. However, experimental demonstration of such sensors in mid-infrared …