Description

Step out of your comfort zone, excel and redefine the limits of what is possible. That’s just what our employees are doing every single day – in order to set the pace through our innovations and enable outstanding achievements. After all, behind every successful company are many great fascinating people.

In a spacious modern setting full of opportunities for further development, ZEISS employees work in a place where expert knowledge and team spirit reign supreme. All of this is supported by a special ownership structure and the long-term goal of the Carl Zeiss Foundation: to bring science and society into the future together.

Join us today. Inspire people tomorrow.

Diversity is a part of ZEISS. We look forward to receiving your application regardless of gender, nationality, ethnic and social origin, religion, philosophy of life, disability, age, sexual orientation or identity.

Apply now! It takes less than 10 minutes.

Metasurfaces play an important role in the development of future optical systems. The design and manufacturing of these advanced surfaces represent critical steps in the innovation process, as their characterization is essential for ensuring optimal performance. Depending on the specific application, the required level of accuracy can vary significantly, with different critical factors influencing the outcomes.

The key of the metasurface technology R&D relies on their design procedures. Various methods and algorithms are therefore currently being developed.

The task at hand is to contribute to the creation of the full design environment and its architecture. You will contribute to elementary modules within the design environment under development and play a key role in their creation and testing.

We invite you to join us in this exciting endeavor, where your contributions will play a vital role in supporting ZEISS field of metasurface technology.

  • Development of optimized phase meshing algorithm, elementary input database,…

  • Integration of optimization techniques in the design process flow

  • Support integration of meta-element within ray tracing software

  • Integration of metrology feedback and optimization metrology-based technique

  • Quantitative simulation of the tolerance budget on given applications

  • Development of algorithms and methods to support metasurface design for various applications

  • Theoretical and experimental comparison of the different meshing and sampling techniques

  • Documentation of the algorithms developed and results

  • A background in Mathematics (optimization, statistics, inverse problem) and/or Wave Physics (Electromagnetic, interferometry, photonics,…)

  • Ideally a bachelor’s degree in one of the above subjects

  • Applied knowledge in Python

As a student, you will work on an equal footing with your colleagues, you will gain deep insights into a company that creates products for the world of tomorrow, and you will create ideal conditions for your later career. You will be responsible and have freedom for investigation new ideas and techniques within the metrology module of the project.