Feb 14, 2024

Summer School on Organic Electronics and Neuromorphic Systems

June 17-20, 2024
will consist of a comprehensive set of classes aimed at doctoral or postdoctoral level researchers from both industry and academia. By means of a programme consisting of lectures, tutorials, advanced discussion groups, students will expand and refine their knowledge of organic materials, devices and circuits for microelectronics, as well as of neuromorphic devices and circuits with the world’s leading experts in these fields.

This Summer School is sponsored by the EU-funded BAYFLEX (Bayesian Inference with Flexible electronics for biomedical Applications) project. It is organized by the Department of Electronic, Electrical and Automatic Control Engineering (DEEEiA) of the Universitat Rovira i Virgili (URV), in Tarragona. The Chair of the Summer School is Prof. Benjamin Iñiguez.

PhD students can present posters showing some of their results in a session on June 20 afternoon. Interested PhD students can submit short abstracts of the results they want to present in the Poster Session.

Invited Speakers


Jan 31, 2024

[paper] THz Measurements, Antennas, and Simulations

Fawad Sheikh 1, Andreas Prokscha 1, Johannes M. Eckhardt 2, Tobias Doeker 2, Naveed A. Abbasi 3, Jorge Gomez-Ponce 3,4, Benedikt Sievert 5, Jan Taro Svejda 5, Andreas Rennings 5, Jan Barowski 6, Christian Schulz 6, Ilona Rolfes 6, Daniel Erni 5, Andreas F. Molisch 3, Thomas Kürner 2, and Thomas Kaiser 1
THz Measurements, Antennas, and Simulations: From the Past to the Future
Invited Paper in IEEE Journal of Microwaves, vol. 3, no. 1, pp. 289-304, Jan. 2023
DOI: 10.1109/JMW.2022.3216210

1 Institute of Digital Signal Processing, UDE, Duisburg (D)
2 Institute for Communications Technology, TU Braunschweig (D)
3 Wireless Devices and Systems Group, University of Southern California, Los Angeles (USA) 
4 ESPOL, Facultad de Ingeniería en Electricidad y Computación, Guayaquil (EC)
5 ATE, University of Duisburg-Essen, and CENIDE Duisburg (D)
6 Institute of Microwave Systems, Ruhr University, Bochum (D)

Abstract: In recent years, terahertz (THz) systems have become an increasingly popular area of research thanks to their unique properties such as extremely high data rates towards Tb/s, submillimeter localization accuracy, high resolution remote sensing of materials, and remarkable advances in photonics and electronics technologies. This article traces the progress of the THz measurements, antennas and simulations, from historical milestones to the current state of research and provides an outlook on the remaining challenges.

FIG: Realized gain measurement of the integrated antenna prototype compared to the estimation of the corresponding equivalent circuit (EC) model in E- and H-plane at 290GHz (a)
and micrograph of the antenna prototype (b)

AcknowledgmentThis work was supported in part by Deutsche Forschungsgemeinschaft for Projects M01, M02, M03, M04, C05, and S03, under Project 287022738 TRR 196, in part by the Ministry of Culture and Science of the State of North Rhine-Westphalia (MKW NRW) through Project terahertz.NRW, and in part by the Open Access Publication Fund of the University of Duisburg-Essen. The work of Jorge Gomez-Ponce was supported by Foreign Fulbright Ecuador SENESCYT Program. The work of Johannes M. Eckhardt, Tobias Doeker, and Thomas Kürner was supported in part by the Federal Ministry of Education and Research (BMBF), Germany, through 6G Research and Innovation Cluster 6G-RIC under Grant 16KISK031 and in part by German Research Foundation (DFG) under Grant FOR 2863, “Meteracom - Metrology for THz Communications.” The work of Jorge Gomez-Ponce, Naveed A. Abbasi, and Andreas F. Molisch was supported by SRC, DARPA, NSF, NIST, and Samsung Research America through ComSenTer Program. This work did not involve human subjects nor animals in its research.

Jan 29, 2024

List of the publications using or referring to DEVSIM

List of the publications using or referring to DEVSIM
[1] K. Wang et al.; Design and simulation of a novel 4H-SiC LGAD timing device; Radiation detection technology and methods; (2023) https://doi.org/10.1007/s41605-023-00431-y
[2] J. Lauwaert; Technology computer aided design based deep level transient spectra: Simulation of high-purity germanium crystals; Journal of Physics D: Applied Physics; (2022) https://doi.org/10.1088/1361-6463/ac34ad
[3] Q. Chen et al.; Analytical model for donor like Gaussian traps in organic thin-film transistor; Organic Electronics; (2021) https://doi.org/10.1016/j.orgel.2022.106464
[4] Q. Chen et al.; The Impact of Contact Position on the Retention Performance in Thin-Film Ferroelectric Transistors; Physica Status Solidi A; (2021) https://doi.org/10.1002/pssa.202100408
[5] L. Hulbert; Designing a Simulator for an Electrically-Pumped Organic Laser Diode; Master’s Thesis; (2019) https://doi.org/10.15368/theses.2019.60
[6] J. E. Sanchez and Q. Chen; Element Edge Based Discretization for TCAD Device Simulation; IEEE Transactions on Electron Devices; (2021) https://doi.org/10.1109/TED.2021.3094776
[7] J. Lauwaert; Fill Factor Loss in a Recombination Junction for Monolithic Tandem Solar Cells; ACS Appl. Energy Mater.; (2023) https://doi.org/10.1021/acsaem.3c00041
[8] J. E. Sanchez; DEVSIM: A TCAD Semiconductor Device Simulator; Journal of Open Source Software; (2022) https://doi.org/10.21105/joss.03898
[9] L. Rickert et al.; High-performance designs for fiber-pigtailed quantum-light sources based on quantum dots in electrically-controlled circular Bragg gratings; Optics Express; (2023) https://doi.org/10.1364/OE.486060
[10] L. R. Brennaman & A. J. Samin; Insights into the performance of InAs-based devices in extreme environments from multiscale simulations; Applied Physics A; (2023) https://doi.org/10.1007/s00339-023-06756-1
[11] M. D. K Jones et al.; Modelling Interfaces in Thin-Film Photovoltaic Devices; Frontiers in Chemistry; (2022) https://doi.org/10.3389/fchem.2022.920676
[12] R. Sellers et al.; fabrication and modeling study to reduce valence band offset in HgCdTe MWIR nBn photodetectors grown on silicon using superlattice barriers; Proc. SPIE PC12687, Infrared Sensors, Devices, and Applications XIII,; (2023) https://doi.org/10.1117/12.2677394
[13] TANG Zhenglai and CAO Bingyang ; Simulations of self-heating effects and the heat generation mechanisms in SOI-MOS devices; Microelectronics & Computer; (2023) https://doi.org/10.19304/J.ISSN1000-7180.2023.0630
[14] Kotecha et al.; Modeling Needs for Power Semiconductor Devices and Power Electronics Systems; IEDM (2019) (2019) https://doi.org/10.1109/IEDM19573.2019.8993449

Postdoc in Semiconductor Devices, and circuit design

Postdoc in Semiconductor Devices, and circuit design
Sønderborg, Denmark

We [sdu.dk] are seeking an enthusiastic new colleague as a PostDoc in the field of Semiconductor Devices, and circuit design. As a postdoc in our team, you will have the opportunity to contribute to cutting-edge research and innovation in this rapidly evolving field with a strong collaboration with international industry partners.

The position is located in the section of Electrical Engineering in Sønderborg within the Centre for Industrial Electronics (CIE). The Centre has currently approximately 30 faculty members including senior (full and associate professors), junior (assistant professors and postdocs), PhDs, and support staff. The task portfolio of the PostDocs will be linked to one main project and several smaller projects within CIE. CIE is embedded in a powerhouse in electronics, which includes researchers and developers at universities and industries on both sides of the Danish-German border. CIE is a new initiative striving for high quality and great impact of its research, innovation, and education. Central to achieving this objective is access to state-of-the-art facilities and collaborations with industries. In the semiconductor research group in CIE, we are a member of European projects and already settled our international collaborations with the pioneer industry.

The positions aim to build strong knowledge and competencies within the field of semiconductor devices, especially in the fields of wide band gap semiconductor devices, circuit design, failure mechanisms, and simulations.

Job description
  • Conduct research in the field of WBG semiconductors with a focus on GaN and SiC devices.
  • Innovate design structures through simulation-based approaches calibrated by experimental data.
  • Apply TCAD simulation and design tools, build demonstrators, and verify your simulation by experimental measurements.
  • Familiar with the fabrication process to realize devices in the clean room and explore their potential applications.
  • Experimental characterization of devices (static and dynamic) to analyze the device behavior.
  • Stay updated with the latest advancements in WBG semiconductor devices and contribute to the development of innovative solutions.
  • You will be involved in the daily supervision of PhD, Master, and Bachelor students who perform research on similar topics.
  • You will publish and present your work both at international conferences and in scientific journals with high impact.
Profile and requirements 
  • Ph.D. in Electrical Engineering, Semiconductor Physics, or a related field.
  • Strong background in theory and simulation of WBG semiconductor devices, device modeling, and circuit design.
  • Hands-on experience in fabrication processes such as lithography, Mask design, etching, and deposition appreciated.
  • Background in characterization techniques, failure mechanisms, and reliability tests.
  • Ability to work independently as well as collaboratively in a research team.
  • Strong communication skills to effectively present research findings and contribute to scientific discussions.
  • Ability to publish in high-impact conferences and journals.
Starting date: March 2024.
Type of contract: Full-time
Employment: 2-year position

Further information is available from 
Professor Thomas Ebel, Head of CIE, phone: +45 93 50 72 05 
Associate Professor Samaneh Sharbati, phone: +45 65 50 82 60

Conditions of employment

Employment as a postdoc requires scientific qualifications at PhD level. Employment as a postdoc is temporary and will cease without further notice at the end of the period. The successful applicant will be employed in accordance with the agreement between the Ministry of Finance and the Danish Confederation of Professional Associations

The assessment process

Read about the Assessment and selection process. Shortlisting may be used.

Application procedure
  • The application must be in English and must include:Motivated application
  • Detailed Curriculum Vitae
  • Certificates/Diplomas (MSc and PhD)
  • List of publications, indicating the publications attached
  • Examples of the most relevant publications. Please attach one pdf-file for each publication
  • Reference letters and other relevant qualifications may also be included.

Documents should not contain a CPR number (civil registration number) – in this case, the CPR number must be crossed out. The application and CV must not exceed 10 MB. If you experience technical problems, you must contact hcm-support@sdu.dk.

The application deadline is 20. February 2024 at 23.59.

Further information for international applicants about entering and working in Denmark.

Further information about The Faculty of Engineering.

The University of Southern Denmark wishes to reflect the surrounding community and therefore encourages everyone, regardless of personal background, to apply for the position.

Open PhD Position at THM

Open PhD Position
Compact Modeling of Reconfigurable Transistors
Payment depending on qualification up to salary group 13 TV-H
(approx. 60k€ … 65k€ per year)

The position in Prof. Dr. Alexander Kloes' Research Group Nanoelectronics/Device Modeling at Technische Hochschule Mittelhessen (THM), University of Applied Sciences, Campus Giessen, is expected to be filled from May 2024 for a duration of 3 years. It is intended to enable the successful candidate to obtain a doctorate degree in a cooperative doctorate procedure between the THM University of Applied Sciences and the Universitat Rovira i Virgili (URV, Spain).
The project in the research field of microelectronics aims at compact modelling of reconfigurable MOS transistors. The goal of the project is the development of a DC/AC Verilog-A compact model for standard design tools to be used for new circuit design concepts in the field of hardware security. Starting point is a physics-based analytical compact current model for Schottky Barrier Transistors which has already been published by the research group at THM. The task is part of a joint project with academic and industrial partners in areas from device technology to logic synthesis. Beside TCAD simulations, for verification by measurements, the project is in close collaboration with a global company for the fabrication of test structures.

Your Tasks:
  • Research in the field of microelectronics and physics of semiconductor devices
  • PhD project on the development of a compact model for reconfigurable MOSFETs
  • Implementation in standard design tools in close collaboration with partners
  • Participation in teaching and general tasks of the group is expected
Requirements for the position:
  • Master’s comparable degree in Electrical Engineering or Physics
  • Excellent theoretical knowledge and practical expertise in the field of solid-state electronics and physics
  • Good knowledge in mathematics
  • Good programming skills
  • Good English language skills are necessary, basic German language skills are desirable
We offer:
  • A stimulating and interdisciplinary research environment with very good infrastructure
  • Flexible working hours
  • Offers for the compatibility of family and career
  • Attractive advanced training opportunities
  • Free use of public transport within the scope of Hessian state

For further information, please contact Prof. Alexander Kloes

Details of the research group can be found at http://go.thm.de/dmrg.