發展高精準度之光波導或介質波導結構模態解法,採用數值技術包括有限差分法、有限元素法、譜方法等。
發展適用於光電應用之先進時域電磁分析與模擬方法,包括在光子晶體、奈米光電、與電漿子學之應用。
研究光子晶體及相關元件,著重於導波光學與光子線路之應用,例如光子晶體光纖與光子晶體波導元件等。
發展用於分析與設計導波光學結構之各式波束傳播方法。
研究各種纖維光學與積體光學元件並建立理論分析模型,相關元件包括融燒式光纖元件、研磨式光纖元件、方向性耦合元件、極化相關型元件、光柵元件等。
Development of high-accuracy mode solvers for optical waveguides or dielectric waveguides having sophisticated structures based on various numerical techniques, such as finite difference methods, finite element methods, spectral methods, etc.
Development of advanced time-domain electromagnetic analysis and simulation methods for optoelectronics applications, including photonic crystals, nanophotonics, and plasmonics.
Research on photonic crystal structures and related devices, in particular, applications in guided-wave optics and photonic circuits, such as photonic crystal fibers and photonic crystal waveguide devices.
Development of beam propagation methods for analysis and design of guided-wave optical structures.
Study and modeling of various fiber-optic and integrated optic devices, such as fused fiber devices, polished fiber devices, directional coupling devices, polarization-dependent devices, grating-based devices, etc.