PhD Position on “Integrated Photonics, Electronic-Photonic Co-Design/Integration”
The Integrated Devices, Electronics, And Systems (IDEAS) Group of ETH Zurich invites applications for one PhD position in the field of integrated photonics for next-generation communication, sensing, such as datacenter, 5G/6G, Light Detection and Ranging (LiDAR), and biomedical applications.
This PhD position focuses on the designs, implementations, and demonstrations of integrated circuit with new circuit topologies and system architectures for integrated electronics/photonics.
Potential topics of interest include but are not limited to:
- Optical transceiver for next generation datacenter communication
- Optical phased array for free-space optical communication and sensing
- Electronic/photonic co-designs
- Compound semiconductor circuit designs and co-integration with photonics
- Microwave-photonics for 6G communication
- Integrated photonics for bioelectronics and biosensors
The ETH IDEAS Group, led by Prof. Hua Wang, is a world-leading research group in the field of integrated circuits and systems for next-generation wireless communication, sensing, and various emerging technology applications. Our current and past PhD students regularly publish at flagship conferences and journals and have found carrier opportunities both in top universities and industry.
The ETH IDEAS Group is part of the Department of Information Technology and Electrical Engineering (D-ITET). More information can be found on the group website.
These PhD positions are jointly funded by EU grants, Swiss national grants, as well as ETH Zurich internal funding. The research involves close collaborations with industry and university groups in Switzerland, EU, and US.
You will be responsible for the architecting, designing, prototyping, and testing of novel electronic/photonic integrated circuits and/or systems using advanced IC technologies. You will be responsible for performing packaging and building measurement setups. Also, you will be responsible for the project meetings, reporting, scientific publications, conference/seminar presentations, and involving in proposal writing. Further, you will be expected to facilitate the teaching and occasionally deliver lectures in English at ETH Zurich.
- Excellent moral character and mature/healthy personality
- MS in Electrical Engineering or equivalent
- Research and publication track record in silicon photonics/nano-photonics is a plus
- Research and publication track record in analog, mixed-signal, RF, mm-Wave integrated circuit design is a plus
- Tapeout experience is a plus
- Relevant industry experience is a plus
- Independent individual who can both craft and lead new research projects and work collaboratively on team projects
- Excellent communication skills in English (the IDEAS team’s working language)
We also would like you to bring the following competencies in line with ETH Zurich’s values:
- You act responsibly and professionally
- You can drive innovations, e.g. by
- Being courageous, open, and curious
- Being flexible and adaptable to change
- Exploring new ideas, solutions, and technologies
- You live inclusivity by treating all people equitably
- You build bridges, e.g. by
- Communicating effectively inside or outside of our IDEAS research group
- Seeking opportunities to collaborate
At ETH IDEAS Group, we value knowledge exchange and collaborative working environment as a highly interdisciplinary and international research team. We provide a wide variety of training opportunities at the cutting edge of electronics/photonics research.
Working, teaching and research at ETH Zurichscience and technology. We are renowned for our excellent education,
cutting-edge fundamental research and direct transfer of new knowledge
into society. Over 30,000 people from more than 120 countries find our
university to be a place that promotes independent thinking and an
environment that inspires excellence. Located in the heart of Europe,
yet forging connections all over the world, we work together to
develop solutions for the global challenges of today and tomorrow.