Laser writing block copolymer self-assembly on graphene light-absorbing layer
Recent advance of high-power laser processing allows for rapid, continuous, area-selective
material fabrication, typically represented by laser crystallization of silicon or oxides for …
material fabrication, typically represented by laser crystallization of silicon or oxides for …
Recent progress in waveguide-integrated graphene photonic devices for sensing and communication applications
Graphene is a two-dimensional material with numerous intriguing optical properties, such
that graphene photonic devices have attracted great interest for sensing and communication …
that graphene photonic devices have attracted great interest for sensing and communication …
Graphene oxide integrated silicon photonics for detection of vapour phase volatile organic compounds
The optical response of a graphene oxide integrated silicon micro-ring resonator (GOMRR)
to a range of vapour phase Volatile Organic Compounds (VOCs) is reported. The response …
to a range of vapour phase Volatile Organic Compounds (VOCs) is reported. The response …
Enhanced linear absorption coefficient of in-plane monolayer graphene on a silicon microring resonator
H Cai, Y Cheng, H Zhang, Q Huang, J Xia, R Barille… - Optics …, 2016 - opg.optica.org
We demonstrate that enhanced linear absorption coefficient (LAC) of in-plane monolayer
graphene is determined by the optical transmission spectra of a graphene layer coated …
graphene is determined by the optical transmission spectra of a graphene layer coated …
N-order generalized-temporal coupled mode theory (g-TCMT) model: extending the spectral range for arbitrary coupling of optical resonators and application in Parity …
T Li, MP Halsall, IF Crowe - Optics Express, 2024 - opg.optica.org
We propose an N-order generalized temporal coupled mode theory (g-TCMT) model, which
provides spectral analysis over a wider range for coupled optical resonators with arbitrary …
provides spectral analysis over a wider range for coupled optical resonators with arbitrary …
Raman mapping analysis of graphene-integrated silicon micro-ring resonators
We present a Raman mapping study of monolayer graphene G and 2D bands, after
integration on silicon strip-waveguide-based micro-ring resonators (MRRs) to characterize …
integration on silicon strip-waveguide-based micro-ring resonators (MRRs) to characterize …
A Design of a Novel Silicon Photonics Sensor with Ultra-Large Free Spectral Range Based on a Directional Coupler-Assisted Racetrack Resonator (DCARR)
O Alsalman, I Crowe - Sensors, 2023 - mdpi.com
A novel refractive index-based sensor implemented within a silicon photonic integrated
circuit (PIC) is reported. The design is based on a double-directional coupler (DC) integrated …
circuit (PIC) is reported. The design is based on a double-directional coupler (DC) integrated …
[PDF][PDF] Suspended graphene on silicon photonics for pressure sensors
RO Phillips - 2022 - pure.manchester.ac.uk
Graphene is an optically active material that can be interfaced with silicon photonics. It has
been shown that graphene attenuates the evanescent field of light surrounding a silicon …
been shown that graphene attenuates the evanescent field of light surrounding a silicon …
[图书][B] Fabrication and Applications of Suspended Grapheme Membranes
NJ Clark - 2016 - search.proquest.com
This thesis reports research activity on suspended graphene membranes. Scientific results
in the form of peer-reviewed publications are presented, along with supporting information to …
in the form of peer-reviewed publications are presented, along with supporting information to …
Linear absorption coefficient of in-plane graphene on a silicon microring resonator
H Cai, Y Cheng, H Zhang, Q Huang, J Xia… - arXiv preprint arXiv …, 2016 - arxiv.org
We demonstrate that linear absorption coefficient (LAC) of a graphene-silicon hybrid
waveguide (GSHW) is determined by the optical transmission spectra of a graphene coated …
waveguide (GSHW) is determined by the optical transmission spectra of a graphene coated …