2026 Dietmar Drung: Engineering and Technology Researcher – H-Index, Publications & Awards

D-Index & Metrics

Discipline name	D-Index	World Ranking	Current World Ranking	National Ranking	Current National Ranking	Publications	Citations
Engineering and Technology	35	8979	8648	305	293	169	5067

Discipline name

D-Index

World Ranking

Current World Ranking

National Ranking

Current National Ranking

Publications

Citations

Engineering and Technology

8979

8648

305

293

169

5067

Engineering and Technology

D-Index

Citations

5067

World Ranking

8979

National Ranking

305

Overview

Dietmar Drung is affiliated with the Physikalisch-Technische Bundesanstalt in Germany. Their research spans physics and astronomy as well as engineering disciplines, reflecting a multidisciplinary approach toward experimental and applied science.

Their work is prominently situated within several subfields, including:

Nuclear and High Energy Physics
Electrical and Electronic Engineering
Biomedical Engineering
Aerospace Engineering
Spectroscopy

Drung's research topics cover a range of specialized areas such as:

Neutrino Physics Research
Advanced Electrical Measurement Techniques
Particle physics theoretical and experimental studies
Dark Matter and Cosmic Phenomena
Calibration and Measurement Techniques
Scientific Measurement and Uncertainty Evaluation
Advanced NMR Techniques and Applications

The scientist has contributed to several research articles. Recent publications include:

Dual-mode auto-calibrating resistance thermometer: A novel approach with Johnson noise thermometry (2021), published in Review of Scientific Instruments
Measurement and analysis of high-frequency voltage errors in the Josephson arbitrary waveform synthesizer (2020), published in Measurement Science and Technology
Improved Limit on Neutrinoless Double Beta Decay of Mo-100 from AMoRE-I (2025), published in Physical Review Letters
Linearity measurements of critical Johnson noise thermometer components with low-distortion multitones from a Josephson arbitrary waveform synthesizer (2020), published in Measurement Science and Technology
Alpha backgrounds in the AMoRE-Pilot experiment (2022), published in The European Physical Journal C

Frequent co-authors working alongside Drung include:

H. J. Kim
K. Siyeon
В. В. Аленков
R. S. Boiko
K. Boonin

Drung's work regularly appears in specific publication venues, with notable frequency in:

Measurement Science and Technology
The European Physical Journal C
arXiv (Cornell University)
Metrologia
Measurement Sensors

Best Publications

Highly Sensitive and Easy-to-Use SQUID Sensors

D.. Drung;C.. Assmann;J.. Beyer;A.. Kirste

450
Citations
Low‐noise high‐speed dc superconducting quantum interference device magnetometer with simplified feedback electronics

D. Drung;R. Cantor;M. Peters;H. J. Scheer

306
Citations
High-Tc and low-Tc dc SQUID electronics

Dietmar Drung

198
Citations
Measurement and noise performance of nano-superconducting-quantum-interference devices fabricated by focused ion beam

L. Hao;J. C. Macfarlane;J. C. Gallop;D. Cox

167
Citations
Integrated YBa2Cu3O7−x magnetometer for biomagnetic measurements

D. Drung;F. Ludwig;W. Müller;U. Steinhoff

148
Citations
An ultra-sensitive and wideband magnetometer based on a superconducting quantum interference device

Jan-Hendrik Storm;Peter Hömmen;Dietmar Drung;Rainer Körber

146
Citations
Advanced Squid Read-Out Electronics

Dietmar Drung

134
Citations
Integrated DC SQUID magnetometer with high dV/dB

D. Drung;R. Cantor;M. Peters;T. Ryhanen

117
Citations
Phase Diagram of the Topological Superfluid 3He Confined in a Nanoscale Slab Geometry

L. V. Levitin;R. G. Bennett;A. Casey;B. Cowan

112
Citations
Ultrastable low-noise current amplifier: A novel device for measuring small electric currents with high accuracy

D. Drung;C. Krause;U. Becker;H. Scherer

104
Citations
Spin-lattice relaxation via quantum tunneling in an Er 3 + -polyoxometalate molecular magnet

F. Luis;M. J. Martínez-Pérez;O. Montero;E. Coronado

101
Citations
THEORY FOR THE MULTILOOP DC SUPERCONDUCTING QUANTUM INTERFERENCE DEVICE MAGNETOMETER AND EXPERIMENTAL VERIFICATION

D. Drung;S. Knappe;H. Koch

100
Citations
A SQUID measurement system for immunoassays

H Matz;D Drung;S Hartwig;H Groß

98
Citations
Low-noise ultra-high-speed dc SQUID readout electronics

Dietmar Drung;Colmar Hinnrichs;Henry-Jobes Barthelmess

86
Citations
Validation of a quantized-current source with 0.2 ppm uncertainty

Friederike Stein;Dietmar Drung;Lukas Fricke;Hansjörg Scherer

83
Citations
Low-noise YBa2Cu3O7−x single layer dc superconducting quantum interference device (SQUID) magnetometer based on bicrystal junctions with 30° misorientation angle

J. Beyer;D. Drung;F. Ludwig;T. Minotani

83
Citations
A 37 channel DC SQUID magnetometer system

H. Koch;R. Cantor;D. Drung;S.N. Erne

80
Citations
High-performance DC SQUID read-out electronics

Dietmar Drung

79
Citations
Ultralow-noise chopper amplifier with low input charge injection

Dietmar Drung;Jan-Hendrik Storm

79
Citations
A 5‐MHz bandwidth SQUID magnetometer with additional positive feedback

D. Drung;H. Matz;H. Koch

77
Citations