gps_fixed 實驗室研究領域:
- 新穎材料的光電特性
- 光學角動量光譜技術
- 雷射物理相關研究
gps_fixed 實驗室提供的專業培力:
- 半導體光電特性 (半導體科技先備學識及應用)
- 新穎材料光電物理特性 (光電科技產業先備學識及應用)
- 光偏振解析光譜技術 (與物理系相關課程接軌)
- 光學設計 (光電科技產業先備學識及應用)
- 雷射結構光源調制技術 (與物理課程接軌及光電科技應用)
主要研究新穎材料與光的交互作用,利用雷射結構光的偏振(自旋角動量)及軌道角動量特性,結合光譜量測技術和平台,研究光子、電子、聲子、激子之間的交互作用。
利用非破壞式的光學量測技術探究新穎材料的光電物理,探索未來可應用的光電元件平台。
- - Optical and Electrical Characteristics of Novel Materials (2D materials, Perovskite, Graphene,…)
- - Optical Angular Momentum Spectroscopy Techniques
- - Laser Physics-related Research
gps_fixed What Lab’s Members Can Learn:
Exploring Photonics, Optoelectronics, and Laser Physics
- - Semiconductor Optoelectronic Properties (Preparatory Knowledge and Applications in Semiconductor Technology)
- - Photonic Physical Properties of Novel Materials (Preparatory Knowledge and Applications in Optoelectronic Technology)
- - Optical Polarization Analysis Spectroscopy Techniques (Aligned with Physics Courses)
- - Optical Design (Preparatory Knowledge and Applications in Optoelectronic Technology)
- - Laser Structured Light Source Modulation (Aligned with Physics Courses and Applications in Optoelectronic Technology)
insert_emoticon Welcome undergraduate and graduate students who are eager to learn to join us.
Our laboratory primarily investigates the interaction between novel materials and light. Leveraging the polarization (spin angular momentum) and orbital angular momentum characteristics of laser structured light, we combine spectroscopic measurement techniques and platforms to explore the interactions among photons, electrons, phonons, and excitons. Through non-destructive optical measurement techniques, we delve into the optoelectronic physics of novel materials, exploring potential applications for future optoelectronic device platforms.