Prof. Dr.-Ing. Thomas Eibert
Academic Career and Research Areas
Prof. Eibert’s (b. 1966) research work is focused on the field of high frequency engineering. His goal is to develop novel and innovative applications for radio, communications and sensors by gaining greater understanding of electromagnetic processes at high frequencies. He focuses particularly on novel algorithms for electromagnetic modeling as well as field transformations and imaging methods.
After completing his studies in electrical engineering, Prof. Eibert received his doctorate at the University of Wuppertal in 1997. Following a period of research at the University of Michigan in Ann Arbor, USA, he was a research fellow at Deutsche Telekom’s Technology Center in Darmstadt between 1998 and 2002. From 2002 to 2005, he was head of the “Antennas and Scattering” department at the Fraunhofer Institute for High Frequency Physics and Radar Technologies in Wachtberg. In 2005, he became professor of radio frequency technology at the University of Stuttgart and has been full professor of high frequency engineering at TUM since 2008.
- Best Innovative Paper Award, 35th ESA Antenna Workshop (2013)
- Literaturpreis der Informationstechnischen Gesellschaft (ITG) des VDE (2008)
- Forschungsförderung für junge Lehrstuhlinhaber gestiftet von der Wandel & Goldermann Foundation (2007)
- Best Paper Award bei der 2nd European Conference on Antennas and Propagation (EuCAP) (2007)
Key Publications (alle Publikationen)
Eibert TF, Ismatullah, Kaliyaperumal E, Schmidt CH: "Inverse Equivalent Surface Current Method with Hierarchical Higher Order Basis Functions, Full Probe Correction and Multilevel Fast Multipole Acceleration (Invited Paper)". Progress in Electromagnetics Research (PIER). 2010; 106: 377–394.Abstract
Blech M, Eibert TF: "A Dipole Excited Ultra-Wideband Dielectric Rod Antenna with Reflector". IEEE Transactions on Antennas and Propagation.2007; 55 (7): 1948–1954.Abstract
Tzoulis A, Eibert TF: "A Hybrid FEBI-MLFMM-UTD Method for Numerical Solutions of Electromagnetic Problems Including Arbitrarily Shaped and Electrically Large Objects". IEEE Transactions on Antennas and Propagation. 2005; 53 (10): 3358-3366.Abstract
Eibert TF, Volakis JL, Wilton DR, Jackson DR: "Hybrid FE/BI Modeling of 3D Doubly Periodic Structures Uilizing Triangular Prismatic Elements and a MPIE Formulation Accelerated by the Ewald Transformation". IEEE Transactions on Antennas and Propagation. 1999; 47 (5): 843–850.Abstract
Eibert TF, Hansen V: "3D FEM/BEM–Hybrid Approach Based on aGeneral Formulation of Huygens’ Principle for Planar Layered Media". IEEE Transactions on Microwave Theory and Techniques. 1997; 45 (7): 1105–1112.Abstract