NOVEL COMPUTATIONAL ELECTROMAGNETIC METHODS FOR NONLINEAR PLASMONIC RESPONSES WITH ORBITAL ANGULAR MOMENTUM
Grant Data
Project Title
NOVEL COMPUTATIONAL ELECTROMAGNETIC METHODS FOR NONLINEAR PLASMONIC RESPONSES WITH ORBITAL ANGULAR MOMENTUM
Principal Investigator
Dr Jiang, Lijun
(Principal Investigator (PI))
Co-Investigator(s)
Professor Chew Weng Cho
(Co-Investigator)
Duration
24
Start Date
2019-01-01
Amount
330057
Conference Title
NOVEL COMPUTATIONAL ELECTROMAGNETIC METHODS FOR NONLINEAR PLASMONIC RESPONSES WITH ORBITAL ANGULAR MOMENTUM
Presentation Title
Keywords
Computational Electromagnetics, Electromagnetics, Nonlinearity, Surface Integral Equation
Discipline
Microwave and Terahertz Engineering,Electronics
Panel
Engineering (E)
HKU Project Code
17209918
Grant Type
General Research Fund (GRF)
Funding Year
2018
Status
Completed
Objectives
1) Develop a novel nonlinear PMCHWT integral equation method for the nonlinear surface plasmonic responses of centrosymmetric medium for the multi-spatial-mode vortex beam with OAM; 2) Develop nonlinear relaxed hierarchical equivalent source algorithm (RHESA) to group nonlinear interactions of repeated nanoparticles; 3) Develop the MF-FMA acceleration technique for the efficient nonlinear analysis; 4) Seeking experimental verifications through international collaborations; 5) Investigate novel nonlinear plasmonic nanostructures with Laguerre-Gauss spatial mode beam carrying OAM.
All Publications
Title | Author(s) | Issue Date | |
---|---|---|---|
Two-Step Enhanced Deep Learning Approach for Electromagnetic Inverse Scattering Problems Journal:IEEE Antennas and Wireless Propagation Letters | 2019 | ||
Quasi-Continuous Metasurfaces for Orbital Angular Momentum Generation Journal:IEEE Antennas and Wireless Propagation Letters | 2019 | ||
Pseudospin-Polarized Topological Line Defects in Dielectric Photonic Crystals Journal:IEEE Transactions on Antennas and Propagation | 2020 | ||
Graphene based functional devices: A short review Journal:Frontiers of Physics | 2019 | ||
2019 | |||
A Novel Dual-Band Decoupling Technique Journal:IEEE Transactions on Antennas and Propagation | 2020 |