Siegfried Selberherr
O.Univ.Prof. Dipl.-Ing. Dr.techn. Dr.h.c.
Publications

Biography

Siegfried Selberherr was born in Klosterneuburg, Austria, in 1955. He received the degree of Diplomingenieur in electrical engineering and the doctoral degree in technical sciences from the Technische Universität Wien in 1978 and 1981, respectively. Prof. Selberherr has been holding the venia docendi on Computer-Aided Design since 1984. From 1988 to 1999 he was the Head of the Institute for Microelectronics. From 1998 to 2005 he served as Dean of the Faculty of Electrical Engineering and Information Technology. His current research topics are modeling and simulation of problems for microelectronics engineering.

Preface

Welcome to the 34th annual research review of the Institute for Microelectronics! Our permanent staff members, financed by the Austrian Federal Ministry of Education, Science and Research, have changed from last year and consist of ten full-time employees: four professors, three assistant professors, one senior scientist, one administrative manager, and one full-time technical assistant. In addition, five doctoral researchers and two federally funded post-doctoral researchers are working on exciting research problems. A further nineteen scientists, nine post-doctoral researchers, one part-time assistant, and one full-time technical assistant are presently funded through projects supported by our industrial partners: the Austrian Science Fund (FWF), the Austrian Research Promotion Agency (FFG), the Christian Doppler Gesellschaft (CDG), and the European Commission (EU).

Over the last year, three projects funded by the Austrian Science Fund (“3D Solution of the Boltzmann Equation on Supercomputers”, “Ultimate Scaling and Performance Potential of MoS2 FETs”, and “Defect-Based Modeling of SiC Devices”) and one Austrian Research Promotion Agency project (“Innovative Networks for Networked Aircraft Subsystems”) have been successfully completed. Five FFG projects, the H2020 project “Modeling Unconventional Nanoscaled Device FABrication”, CDG projects on “High Performance Technology CAD”, “Nonvolatile Magnetoresistive Memory and Logic”, and “Single-Defect Spectroscopy in Semiconductor Devices”, as well as two projects funded by the FWF (“General Nano-Electromagnetic Quantum Phase Space Model” and “Numerical Constraints for the Wigner and the Sigma Equation”) are proceeding according to plan.

We are very pleased that our industrial partners have continued and extended their support of projects dealing with a wide range of topics, such as multidisciplinary characterization and modeling for innovative process and product integration of power semiconductors, reliability of oxides in SiC MOSFETs, device degradation and recovery for circuit simulation, reliability at cryogenic temperatures, defect spectroscopy of integrated photo diodes, fundamental fluctuations in spintronics, highly efficient characterization of transistor arrays, noise in semiconductor devices, modeling the reliability and microstructure of metallic microheaters, and modeling of hot-carrier-degradation in Si-transistors.

It is a great pleasure for us to report that one directly funded project, “Multidisciplinary Characterization and Modeling for Innovative Process and Product Integration of Power Semiconductors”, and one FWF project, “Semiconductor/Fluoride Structures on Si for 2D Electronics”, began during the past year. In addition, we are delighted to announce that the ERC Advanced Grant Project “Fluorides for 2D Next-Generation Nanoelectronics” will begin work in September 2022.

We are exceptionally proud of the continually high academic and scientific output produced by our institute, evidenced both by our large number of long-term projects and our high rate of publication — especially regarding our contributions to, and participation in, leading international conferences. We are aware, however, that this success would not be possible without the continued support of our collaborators within academia and industry. As such, we would like to take this opportunity to explicitly convey our gratitude for their trust in our scientific work. In this regard, we are entering into the next year of our institute, as ever, with high expectations.