Teaching

I enjoy very much in teaching. I like to deliver what I know to new faces in the field of photonics. While teaching, I also learn from students and reflect on my own knowledge.

I believe that teaching is not isolated from research, it is actually a summary of what has been achieved, as well as a seminar on what can be done next.

Current Teaching

  • Present2018

    5ECA0 Circuits

    Eindhoven University of Technology (TU/e)

    Level: Bachelor
    Course study load: 5 ECTS

    Learning objectives:

    The students will be able to apply circuit analysis techniques to solve electrical networks composed of resistors (R), inductors (L) and capacitors (C) in the steady state and the transient state to propose and develop electrical network solutions to selected application related problems.

  • Present2018

    5FLK0 Circuit Analysis

    Eindhoven University of Technology (TU/e)

    Level: Pre-master
    Course study load: 2.5 ECTS

    Learning objectives

    The students will be able to apply circuit analysis techniques to solve electrical networks composed of RLC and operational amplifiers in the steady state and the transient state to solve, develop and propose electrical network solutions to application related problems.
    The students develop a thinking style and a problem-solving method based on physical insight. The abstract mathematic line is accompanied by practical applications.

  • Present2017

    5SHB0 Photonic Integration: Technology and Characterization

    Eindhoven University of Technology (TU/e)

    Level: Master
    Prior knowledge: Optics, Photonics, Photonic Integrated Circuits
    Course study load: 5 ECTS
    Specialization group: Photonic Integration (PhI) group

    Content: The course gives an overview of the cleanroom technologies that are used to fabricate photonic integrated circuits (PICs). Detailed theory and principle of the technologies will be covered. The technologies will be linked together and the concept of generic photonic integration will be introduced.
    Second part of the course covers characterization of the PICs. It starts from basic device concepts, through to measurement techniques and finally analysis and interpretation of the characterization results.
    The course aims to give master-level students a clear overview of the state-of-the-art photonic integration research and industry.

Teaching History

  • 20172016

    5XEA0 Spectrum Electrical Engineering

    Eindhoven University of Technology (TU/e)

    Level: Bachelor
    Prior knowledge: 5ECA0 Circuits
    Course study load: 5 ECTS

    Content:

    Without Electrical Engineering (EE) our modern society would not exist. EE technology is the invisible heart of a broad variety of real-world products and systems. This course provides students with an orientation on the EE field. To this end, it explores 3 key EE application areas, namely the Connected World, Care & Cure, and the Smart Sustainable Society. For each of these areas,
    • leading EE experts provide introductory surveys;
    • a hands-on assignment familiarizes students with typical EE approaches; and
    • a range of scientific, industrial and clinical experts is interviewed in order to build up a view on the status and future trends of EE.

  • 20162016

    5TT60 Photonic Integration: Technology and Characterization

    Eindhoven University of Technology (TU/e)

    Level: Master
    Course study load: 3 ECTS
    Specialization group: Photonic Integration (PhI) group

    Design practical course for groups of 9 Masters students; Set up experimental lab and facility; Prepare optical chips for practice course; Train PhD students for course assistance.

  • 20102009

    Integrated optoelectronics

    Zhejiang University

    Level: Bachelor

    Prepare syllabus and slides for the course; Design and set-up experimental course; Teach one semester together with Dr. Yaocheng Shi.