Ongeveer 13 uur geleden - NWO-institutenorganisatie - Utrecht
In this project you will develop optical metasurfaces that control the coupling and trapping of light in ultrathin high-efficiency solar cells. We will use …
PhD position on semiconductor photonic integrated lasers and circuits for Optical Coherence Tomography at 1300nm.
This project concerns investigations on and development of a widely tunable laser for a miniaturized scanning source optical coherence tomography (OCT) system. The laser will be realized on a single optical chip using 1300 nm semiconductor photonic integration technology. There are two main aspects to this project. The investigations into the laser will focus on a new type of integrated tunable laser with an intrinsically low sensitivity for optical feedback combined with a wide scanning range. This is essential for integration of the complete optical coherence tomography system. The application of the laser in an OCT system will be done in collaboration with a PhD student at the Biomedical Engineering and Physics department at the Academic Medical Centre in Amsterdam. The photonic integration technology to be used to fabricate the laser will be an adaptation of existing indium phosphide based technology that can work at 1550nm. This technology is to be developed in collaboration with the company Smart Photonics B.V..
You will work in the group Photonic Integration of the Electrical Engineering department of Eindhoven University of Technology (phi.ele.tue.nl). This is an internationally oriented group which is leading in researching, developing and utilizing photonic integration with III-V semiconductors to realize cutting edge devices. With our NanoLabNL facilities and our partnerships with companies like Smart Photonics, we are not only able to design these chips, but also to actually produce, characterize and analyze their performance.
We are looking for candidates who are interested in this exciting application of integrated photonics, tunable semiconductor lasers and optical coherence tomography.
Successful candidates should have good writing and documentation skills, good analytical and research capabilities and excellent communication skills. They must be able to organize their own work well and set and pursue their goals independently. The candidate will collaborate not only with the other members of the Photonic Integration group, but in particular also with other researchers in the Academic Medical Centre and a number of companies involved in the project.
We are looking for candidates with a MSc diploma in Electrical Engineering, Physics or Applied Physics, preferably with not more than four years' experience in research after the graduation, and with good skills in programming tools and an interest in photonics and electronics.
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