Job 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.
- Working in the interface between algorithms, optical design, and system engineering, you will develop visions and prototypes for future products.
- Model, simulate, and evaluate sub-wavelength structures in photonic devices and optical systems that are crucial for the entire application spectrum of the ZEISS Group.
- Advance our simulation capabilities by interfacing to both proprietary and ZEISS-owned software and developing the latter further.
- Initiate and drive corresponding activities.
- A university degree in physics, computer science or mathematics and excellent programming skills - a PhD would be a plus.
- Proven and recognized expertise in simulation and modelling in both theory and implementation.
- State-of-the-art overview of latest research and industry trends in nano-structured surfaces, particularly in optical and acoustic effects.
- Knowledge and hands-on experience on how to develop simulations at scale and optimize regarding speed and efficiency.
- Expertise in mathematical modeling and numerical methods, including finite element analysis (FEA), finite difference time domain (FDTD), and other computational techniques.
- Proficiency in using rigorous electro-magnetic solvers, e.g. JCMwave, COMSOL Multiphysics, ANSYS Lumerical or respective open-source packages.
- A passion for programming with a solid background in Python.
- Strong communication and presentation skills - the vision and hands-on mindset to make your ideas come to life in ZEISS products.