2026 Michael Schlechtweg: Electronics and Electrical Engineering Researcher – H-Index, Publications & Awards

D-Index & Metrics

Discipline name	D-Index	World Ranking	Current World Ranking	National Ranking	Current National Ranking	Publications	Citations
Electronics and Electrical Engineering	35	5568	5343	155	149	331	5105

Discipline name

D-Index

World Ranking

Current World Ranking

National Ranking

Current National Ranking

Publications

Citations

Electronics and Electrical Engineering

5568

5343

155

149

331

5105

Electronics and Electrical Engineering

D-Index

Citations

5105

World Ranking

5568

National Ranking

155

Overview

Michael Schlechtweg is affiliated with the Fraunhofer Institute for Applied Solid State Physics IAF in Germany. Their research is primarily situated in the field of Engineering, with a specific focus on Electrical and Electronic Engineering, Mechanics of Materials, and Ocean Engineering.

The main topics addressed in their work include:

Microwave and Dielectric Measurement Techniques
Ultrasonics and Acoustic Wave Propagation
Advanced MEMS and NEMS Technologies
Geophysical Methods and Applications

Schlechtweg has contributed to several peer-reviewed publications. Recent notable papers are:

"Millimeter-Wave Radar Sensor for Automated Tomographic Imaging of Composite Materials in a Manufacturing Environment," published in 2021 in IEEE Sensors Letters
"An Overview of Clutter Mitigation Methods for Tomographic Material Inspection," published in 2020 in IEEE Transactions on Microwave Theory and Techniques

Their frequent co-authors include:

Dominik Meier
Christian Zech
Benjamin Baumann
Bersant Gashi
Jutta Kühn

Publication venues where Schlechtweg's work has appeared include:

IEEE Sensors Letters
IEEE Transactions on Microwave Theory and Techniques

Best Publications

${W}$ -Band Time-Domain Multiplexing FMCW MIMO Radar for Far-Field 3-D Imaging

Daniela Bleh;Markus Rosch;Michael Kuri;Alexander Dyck

158
Citations
35 nm metamorphic HEMT MMIC technology

A. Leuther;A. Tessmann;H. Massler;R. Losch

114
Citations
50 nm MHEMT Technology for G- and H-Band MMICs

A. Leuther;A. Tessmann;M. Dammann;C. Schworer

107
Citations
A Vector Corrected High Power On-Wafer Measurement System with a Frequency Range for the Higher Harmomcs up to 40 GHz

M. Demmler;P. J. Tasker;M. Schlechtweg

103
Citations
Metamorphic HEMT MMICs and Modules for Use in a High-Bandwidth 210 GHz Radar

A. Tessmann;I. Kallfass;A. Leuther;H. Massler

84
Citations
Metamorphic HEMT technology for low-noise applications

A. Leuther;A. Tessmann;I. Kallfass;R. Losch

83
Citations
A simplified broad-band large-signal nonquasi-static table-based FET model

M. Fernandez-Barciela;P.J. Tasker;Y. Campos-Roca;M. Demmler

80
Citations
35 nm mHEMT Technology for THz and ultra low noise applications

Arnulf Leuther;Axel Tessmann;Michael Dammann;Hermann Massler

79
Citations
51 GHz frontend with flip chip and wire bond interconnections from GaAs MMICs to a planar patch antenna

G. Baumann;H. Richter;A. Baumgartner;D. Ferling

76
Citations
Low cost GaAs PHEMT MMICs for millimeter wave sensor applications

H.J. Siweris;A. Werthof;H. Tischer;U. Schaper

74
Citations
Supply voltage decoupling device for HF amplifier circuits

Martin Leich;Michael Schlectweg

74
Citations
A 300 GHz mHEMT amplifier module

A. Tessmann;A. Leuther;V. Hurm;H. Massler

70
Citations
Metamorphic HEMT MMICs and Modules Operating Between 300 and 500 GHz

A. Tessmann;A. Leuther;V. Hurm;I. Kallfass

70
Citations
40-Gb/s high-power modulator driver IC for lightwave communication systems

Zhihao Lao;A. Thiede;U. Nowotny;H. Lienhart

70
Citations
High-bandwidth 220 GHz experimental radar

H. Essen;A. Wahlen;R. Sommer;W. Johannes

68
Citations
220 GHz Low-Noise Amplifier Modules for Radiometric Imaging Applications

A. Tessmann;A. Leuther;M. Kuri;H. Massler

65
Citations
A 600 GHz low-noise amplifier module

A. Tessmann;A. Leuther;H. Massler;V. Hurm

64
Citations
70 nm low-noise metamorphic HEMT technology on 4 inch GaAs wafers

A. Leuther;A. Tessmann;M. Dammann;W. Reinert

62
Citations
Push-push oscillators for 94 and 140 GHz applications using standard pseudomorphic GaAs HEMTs

S. Kudszus;W.H. Haydl;A. Tessmann;W. Bronner

61
Citations
Single-chip coplanar 94-GHz FMCW radar sensors

W.H. Haydl;M. Neumann;L. Venveyen;A. Bangert

58
Citations

Frequent Co-Authors

Arnulf Leuther Fraunhofer Society

Oliver Ambacher University of Freiburg

Axel Tessmann Fraunhofer Society

Ingmar Kallfass University of Stuttgart

Mark J. W. Rodwell University of California, Santa Barbara

Manfred Thumm Karlsruhe Institute of Technology

Leonhard Reindl University of Freiburg

Thomas Zwick Karlsruhe Institute of Technology

Paul J. Tasker Cardiff University

Lester F. Eastman Cornell University

External Links

Personal website of Michael Schlechtweg Google Scholar page

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