Develop novel approaches for solving maxwell equations
Understand polarization effects on microstructures
Compare solutions with existing models
Carl Zeiss Pty Ltd is seeking a PhD candidate for numerical modeling to enhance their development of microstructured optics. The role involves researching and developing methods for approximating solutions to Maxwell's equations and includes publishing findings in academic formats. This position is based in Oberkochen, Germany, and is a three-year fixed-term opportunity
Job Summary
Develop or further develop novel or existing approaches for the fast approximate solution of Maxwell equations in microstructured optics.
Gain a better understanding of polarization effects on microstructures and compare your solution with existing models on a theoretical and numerical level.
Publish your results in the form of patents, conference reports, or scientific articles.
Matching Summary
Match Score: 85
Carl Zeiss Pty Ltd is seeking a PhD candidate for numerical modeling to enhance their development of microstructured optics. The role involves researching and developing methods for approximating solutions to Maxwell's equations and includes publishing findings in academic formats. This position is based in Oberkochen, Germany, and is a three-year fixed-term opportunity.
Skills & Requirements
Must-have
Develop novel approaches for solving Maxwell equations
Understand polarization effects on microstructures
Compare solutions with existing models
Publish results in patents, conferences, or journals