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ORCIDThomas Musch
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- affiliation: Ruhr University Bochum, Germany
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Journal Articles
- 2024
[j18]Bent Walther
, Lukas Polzin, Marcel van Delden, Thomas Musch:
An Ultra-Wideband Reference Frequency Chirp Generator Utilizing Fractional Frequency Divider With High Linearity. IEEE Open J. Circuits Syst. 5: 254-266 (2024)- [j17]Birk Hattenhorst, Nicholas Karsch, Thomas Musch:
Enhanced Tracer Particle Detection in Dynamic Bulk Systems Based on Polarimetric Radar Signature Correlation. Sensors 24(9): 2673 (2024) - 2023
- [j16]Robin Kaesbach, Marcel van Delden, Thomas Musch:
A Tunable Dielectric Resonator Oscillator with Phase-Locked Loop Stabilization for THz Time Domain Spectroscopy Systems. IEICE Trans. Electron. 106(11): 718-721 (2023) - [j15]Chu Li, Marcel van Delden, Aydin Sezgin, Thomas Musch, Zhu Han:
IRS-Assisted MISO System With Phase Noise: Channel Estimation and Power Scaling Laws. IEEE Trans. Wirel. Commun. 22(6): 3927-3941 (2023) - 2022
- [j14]Christoph Baer, Nicholas Karsch, Robin Kaesbach, Thomas Musch:
Enhancing the Radar Cross-Range Resolution in Ultra-Fast Radar Scans by Utilizing Frequency Coded Sub-Channels. Sensors 22(9): 3343 (2022) - [j13]Kerstin Orend, Christoph Baer, Thomas Musch:
A Compact Measurement Setup for Material Characterization in W-Band Based on Dielectric Waveguides. Sensors 22(16): 5972 (2022) - [j12]Nicholas Karsch, Hendrik Schulte, Thomas Musch, Christoph Baer:
A Novel Localization System in SAR-Demining Applications Using Invariant Radar Channel Fingerprints. Sensors 22(22): 8688 (2022) - 2021
- [j11]Christoph Baer, Kerstin Orend, Birk Hattenhorst, Thomas Musch:
Field Representation Microwave Thermography Utilizing Lossy Microwave Design Materials. Sensors 21(14): 4830 (2021) - 2020
- [j10]Gordon Notzon, Robert Storch, Thomas Musch, Michael Vogt:
A Reflection Measurement System With High Accuracy Using Binary Coded Signals. IEEE Trans. Instrum. Meas. 69(10): 7825-7836 (2020) - 2015
- [j9]Christoph Baer, Timo Jaeschke, Nils Pohl, Thomas Musch:
Contactless Detection of State Parameter Fluctuations of Gaseous Media Based on an mm-Wave FMCW Radar. IEEE Trans. Instrum. Meas. 64(4): 865-872 (2015) - [j8]Martin Gevers, Patrik Gebhardt, Stephan Westerdick, Michael Vogt, Thomas Musch:
Fast Electrical Impedance Tomography Based on Code-Division-Multiplexing Using Orthogonal Codes. IEEE Trans. Instrum. Meas. 64(5): 1188-1195 (2015) - [j7]Robert Storch, Thomas Musch:
Synthesis Concepts of Signals With High Spectral Purity for the Use in Impulse Radar Systems. IEEE Trans. Instrum. Meas. 64(9): 2574-2582 (2015) - 2009
- [j6]Nils Pohl, Hans-Martin Rein, Thomas Musch, Klaus Aufinger, Josef Hausner:
SiGe Bipolar VCO With Ultra-Wide Tuning Range at 80 GHz Center Frequency. IEEE J. Solid State Circuits 44(10): 2655-2662 (2009) - 2005
- [j5]Thomas Musch, Michael Gerding, Burkhard Schiek:
A phase-locked-loop concept for the generation of two RF-signals with a small frequency offset. IEEE Trans. Instrum. Meas. 54(2): 709-712 (2005) - 2003
- [j4]Thomas Musch:
A high precision 24-GHz FMCW radar based on a fractional-N ramp-PLL. IEEE Trans. Instrum. Meas. 52(2): 324-327 (2003) - 2001
- [j3]Ilona Rolfes, Thomas Musch, Burkhard Schiek:
Cryogenic noise parameter measurements of microwave devices. IEEE Trans. Instrum. Meas. 50(2): 373-376 (2001) - [j2]Thomas Musch, Burkhard Schiek:
Measurement of the ramp linearity of extremely linear frequency ramps using a fractional dual loop structure. IEEE Trans. Instrum. Meas. 50(2): 389-392 (2001) - 1999
- [j1]Thomas Musch, Ilona Rolfes, Burkhard Schiek:
A highly linear frequency ramp generator based on a fractional divider phase-locked-loop. IEEE Trans. Instrum. Meas. 48(2): 634-637 (1999)
Conference and Workshop Papers
- 2022
- [c11]Marco Osenberg, Jan Förster, Sören Rust, Thomas Fritsch, Jan Tebrügge, Werner Pauer, Thomas Musch:
Ultrasound Sensor for Process and Fouling Monitoring in Emulsion Polymerization Processes. IEEE SENSORS 2022: 1-4 - 2020
- [c10]Lukas Polzin, Marcel van Delden, Nils Pohl, Klaus Aufinger, Thomas Musch:
A 117 GHz Dual-Modulus Prescaler With Inductive Peaking for a Programmable Frequency Divider. BCICTS 2020: 1-4 - 2019
- [c9]Marcel van Delden, Nils Pohl, Klaus Aufinger, Thomas Musch:
A 32-48 GHz Differential YIG Oscillator With Low Phase Noise Based On a SiGe MMIC. RWS 2019: 1-3 - 2017
- [c8]Malte Mallach, Thomas Musch:
Towards a fast microwave tomography system for multiphase flow imaging. I2MTC 2017: 1-6 - 2016
- [c7]Jan Christoph Abrolat, Thomas Musch:
A new approach for velocity profile measurements with electromagnetic flow tomography. IEEE SENSORS 2016: 1-3 - [c6]Birk Hattenhorst, Christoph Baer, Thomas Musch:
Microwave near-field sensor for contactless gas pressure determination. IEEE SENSORS 2016: 1-3 - 2015
- [c5]Dirk Kuschnerus, Attila Bilgic, Felix Bruns, Thomas Musch:
A hierarchical domain model for safety-critical cyber-physical systems in process automation. INDIN 2015: 430-436 - 2014
- [c4]Michael Vogt, Martin Gevers, Thomas Musch:
Evaluation of transducer configurations for ultrasound cross-correlation flowmeters. I2MTC 2014: 40-44 - [c3]Martin Gevers, Patrik Gebhardt, Michael Vogt, Thomas Musch:
Code-division-multiplexing using orthogonal codes for fast electrical impedance tomography. I2MTC 2014: 1130-1133 - [c2]Christoph Baer, Thomas Musch, Timo Jaeschke, Nils Pohl:
Contactless determination of gas concentration and pressure based on a low jitter mmWave FMCW radar. SAS 2014: 11-14 - 2013
- [c1]Nils Pohl, Timo Jaeschke, Steffen Scherr, Serdal Ayhan, Mario Pauli, Thomas Zwick, Thomas Musch:
Radar measurements with micrometer accuracy and nanometer stability using an ultra-wideband 80 GHz radar system. WiSNet 2013: 31-33
Coauthor Index
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