H1Your role /h1ulliWorking in the interface between algorithms, optical design, and system engineering, you will develop visions and prototypes for future products. /liliModel, simulate, and evaluate sub-wavelength structures in photonic devices and optical systems that are crucial for the entire application spectrum of the ZEISS Group. /liliAdvance our simulation capabilities by interfacing to both proprietary and ZEISS-owned software and developing the latter further. /liliInitiate and drive corresponding activities. /li /ul h1Your profile /h1ulliA university degree in physics, computer science or mathematics and excellent programming skills - a PhD would be a plus. /liliProven and recognized expertise in simulation and modelling in both theory and implementation. /liliState-of-the-art overview of latest research and industry trends in nano-structured surfaces, particularly in optical and acoustic effects. /liliKnowledge and hands-on experience on how to develop simulations at scale and optimize regarding speed and efficiency. /liliExpertise in mathematical modeling and numerical methods, including finite element analysis (FEA), finite difference time domain (FDTD), and other computational techniques. /liliProficiency in using rigorous electro-magnetic solvers, e.g. JCMwave, COMSOL Multiphysics, ANSYS Lumerical or respective open-source packages. /liliA passion for programming with a solid background in Python. /liliStrong communication and presentation skills - the vision and hands-on mindset to make your ideas come to life in ZEISS products. /li /ul p Your ZEISS Recruiting Team: /pFriederike Kirklar-Harms