Markus Münzenberg

8.1k citations

99 papers · 4.4k indexed · 3 hit papers · h-index 28

Atomic and Molecular Physics, and Optics top 0.5%
- Magnetic properties of thin films 68
- Quantum and electron transport phenomena 30
Structural Biology top 1%
Condensed Matter Physics top 1%
- Physics of Superconductivity and Magnetism 16
- Theoretical and Computational Physics 9
Electronic, Optical and Magnetic Materials top 2%
- Magnetic Properties of Alloys 10
- Magnetic and transport properties of perovskites and related materials 9
Electrical and Electronic Engineering top 2%
- Magneto-Optical Properties and Applications 16
- Terahertz technology and applications 9

Co-authors: Jakob Walowski Henning Ulrichs Benjamin Lenk Jagadeesh S. Moodera Gerrit Eilers Martin Wolf Stefan Blügel Guo‐Xing Miao
Cited by: Atomic and Molecular Physics, and Optics Structural Biology Condensed Matter Physics
Journals: Applied Physics Letters (10 papers)Physical Review B (10 papers)Journal of Applied Physics (8 papers)
Partner nations: Germany United States France

In The Last Decade

Markus Münzenberg

95 papers receiving 4.3k citations

Hit Papers

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Peers

Countries citing papers authored by Markus Münzenberg

Since Specialization

Citations

This map shows the geographic impact of Markus Münzenberg's research. It shows the number of citations coming from papers published by authors working in each country. You can also color the map by specialization and compare the number of citations received by Markus Münzenberg with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Markus Münzenberg more than expected).

Fields of papers citing papers by Markus Münzenberg

Since Specialization

Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Markus Münzenberg. Nodes represent research fields, and links connect fields that are likely to share authors. Colored nodes show fields that tend to cite the papers produced by Markus Münzenberg. The network helps show where Markus Münzenberg may publish in the future.

Co-authorship network

The 25 scholars most cited alongside Markus Münzenberg, linked wherever they have co-authored with each other. Click a name or a connecting line to browse the papers they share.

Border = papers with Markus Münzenberg Line = papers co-authored together Markus Münzenberg links everyone, so they are left out of the graph.

All Works

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20 of 20 papers shown

#	Work
1	Distortion-free sampling of ultrabroadband terahertz electric fields by interfacial spin accumulation Science Advances ·Alexander L. Chekhov,Chris Sixsmith,J Heitz,Zhao Li-jun,Samridh Jaiswal,Oliver Gueckstock,Luana Lubke de Oliveira,Carl Van Lucero,Guiliang Xie,Martin Wolf,Markus Münzenberg,G. Jakob,Mathias Kläui,Tom S. Seifert,Tobias Kampfrath	2025	0
2	Magnetic tunnel junctions driven by hybrid optical-electrical signals as a flexible neuromorphic computing platform Communications Physics ·Mohamed Islem BOUACHA,石橋信康,Tim Böhnert,Clara C. Wanjura,Marcel S. Claro,María de Jesús Zupo Jiménez,İhsan Çaha,Francis Leonard Deepak,Farshad Moradi,Ricardo Ferreira,Markus Münzenberg,Petrova Svetlana Nikolayevna	2025	0
3	Accessing Ultrafast Spin-Transport Dynamics in Copper Using Broadband Terahertz Spectroscopy Physical Review Letters ·信喜本多,Reza Rouzegar,Oliver Gueckstock,Christian Denker,W Hoppe,増岡淳,Tom S. Seifert,F. A. Massango,Georg Woltersdorf,Piet W. Brouwer,Markus Münzenberg,Tobias Kampfrath,Lukáš Nádvorník	2024	6
4	Tunable ultrabroadband hybrid terahertz emitter combining a spintronic and a GaSe source Applied Physics Letters ·Sarah Blunt,Oliver Gueckstock,Junwei Tong,Guiliang Xie,Chihun In,Markus Münzenberg,Claus M. Schneider,Tobias Kampfrath,Tom S. Seifert	2024	2
5	Comparative analysis of THz signal emission from bilayer heterostructures: Wideband and high-frequency THz signal advantage of PtBi-based emitter Applied Physics Letters ·石橋信康,Petrova Svetlana Nikolayevna,T Steffen,Jakob Walowski,Farshad Moradi,Markus Münzenberg	2024	1
6	Size and density control of skyrmions with picometer CoFeB thickness variations—observation of zero-field skyrmions and skyrmion merging Journal of Physics D Applied Physics ·Christian Denker,L. S. Koupparis,Enno Lage,Hoz Caballer,Stefeson Bezerra de Melo,Fariba MousaKhanloo,Jakob Walowski,LELY ERVI SETIYAWATI,Markus Münzenberg,Jeffrey McCord	2023	5
7	Enhancing spin-transfer torque in magnetic tunnel junction devices: Exploring the influence of capping layer materials and thickness on device characteristics Journal of Applied Physics ·Petrova Svetlana Nikolayevna,Elvira Paz,Tim Böhnert,Valentin C. Berger,María de Jesús Zupo Jiménez,Mohamed Islem BOUACHA,Jakob Walowski,Farshad Moradi,Ricardo Ferreira,Markus Münzenberg	2023	5
8	Broadband Spintronic Terahertz Source with Peak Electric Fields Exceeding 1.5 MV/cm Physical Review Applied ·Reza Rouzegar,Alexander L. Chekhov,Chris Sixsmith,Luana Lubke de Oliveira,Arza Adriana,Charles‐Henri Lambert,Dieter Engel,Ulrike Martens,Markus Münzenberg,Martin Wolf,G. Jakob,Mathias Kläui,Tom S. Seifert,Tobias Kampfrath	2023	60
9	Giant quadratic magneto-optical response of thin Y3Fe5O12 films for sensitive magnetometry experiments Physical review. B. ·Elvina Febriyani Chandrawijaya,T. Ostatnický,Jay Ameratunge,Dominik Kriegner,Helena Reichlová,Richard Schlitz,Antonín Baďura,Z. Šobáň,Markus Münzenberg,G. Jakob,Er‐Jia Guo,Mathias Kläui,Petr Němec	2022	2
10	Frequency‐Independent Terahertz Anomalous Hall Effect in DyCo₅, Co₃₂Fe₆₈, and Gd₂₇Fe₇₃ Thin Films from DC to 40 THz Advanced Materials ·Tom S. Seifert,Ulrike Martens,F. Radu,Bheem Singh Patel,Marco Berritta,Lukáš Nádvorník,Xhoana Sufa,T. Jungwirth,Martin Wolf,Ilie Radu,Markus Münzenberg,Peter M. Oppeneer,Georg Woltersdorf,Tobias Kampfrath	2021	27
11	Large magneto-Seebeck effect in magnetic tunnel junctions with half-metallic Heusler electrodes Nature Communications ·W. Jacewicz,Ulrike Martens,Z. Aytül Sin,Slawek Tkaczyk,Yiran Cui,Ernest Lew,Markus Meinert,Timo Kuschel,Andy Thomas,Christian Heiliger,Markus Münzenberg,Günter Reiss	2017	45
12	Light-Induced Metastable Magnetic Texture Uncovered byin situLorentz Microscopy Physical Review Letters ·Dian Febrianty Murad,Marcel Möller,Колодій Діана Валеріївна,Nara Rubiano da Silva,Armin Feist,Ulrike Martens,Henning Ulrichs,Markus Münzenberg,Claus Ropers,Sascha Schäfer	2017	44
13	Ultrafast photocurrents at the surface of the three-dimensional topological insulator Bi2Se3 Nature Communications ·Lukas Braun,Gregor Mußler,A. Hruban,M. Kończykowski,Thomas Schumann,Martin Wolf,Markus Münzenberg,L. Perfetti,Tobias Kampfrath	2016	168
14	Multifunctional gold nanorods for selective plasmonic photothermal therapy in pancreatic cancer cells using ultra-short pulse near-infrared laser irradiation Nanoscale ·Tania Patiño,Ujjwal Mukund Mahajan,Raghavendra Palankar,Nikolay Medvedev,Jakob Walowski,Markus Münzenberg,Julia Mayerle,Mihaela Delcea	2015	44
15	Coherent ultrafast spin-dynamics probed in three dimensional topological insulators Scientific Reports ·Fabio Boschini,Alma Cecilia Escobar de Mena,Gregor Mußler,Jörn Kampmeier,Detlev Grützmacher,Lukas Braun,Ferhat Katmis,Jagadeesh S. Moodera,C. Dallera,E. Carpene,Christian Franz,Michael Czerner,Christian Heiliger,Tobias Kampfrath,Markus Münzenberg	2015	16
16	Resolving the role of femtosecond heated electrons in ultrafast spin dynamics Scientific Reports ·Johannes Mendil,P. Nieves,O. Chubykalo‐Fesenko,Jakob Walowski,Tiffany Santos,Simone Pisana,Markus Münzenberg	2014	80
17	Interface-engineered templates for molecular spin memory devicesbreakdown → Nature ·Karthik V. Raman,A. M. Kamerbeek,Arup Mukherjee,Nicolae Atodiresei,Tamal K. Sen,Predrag Lazić,Vasile Caciuc,Reent Michel,Dietmar Stalke,Swadhin K. Mandal,Stefan Blügel,Markus Münzenberg,Jagadeesh S. Moodera	2013	396
18	Terahertz spin current pulses controlled by magnetic heterostructuresbreakdown → Nature Nanotechnology ·T. Kampfrath,Marco Battiato,Pablo Maldonado,Gerrit Eilers,Kyle Summer,S. Mährlein,Vladyslav Zbarsky,Frank Freimuth,Yuriy Mokrousov,Stefan Blügel,Martin Wolf,Ilie Radu,Peter M. Oppeneer,Markus Münzenberg	2013	496
19	Tunneling path toward spintronics Reports on Progress in Physics ·Guo‐Xing Miao,Markus Münzenberg,Jagadeesh S. Moodera	2011	115
20	Isolating the Interface Magnetocrystalline Anisotropy Contributions in Magnetic Multilayers Physical Review Letters ·S. S. Dhesi,H. A. Dürr,Markus Münzenberg,W. Felsch	2003	13

About Markus Münzenberg

Markus Münzenberg is a scholar working on Structural Biology, Condensed Matter Physics, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials and Acoustics and Ultrasonics, having authored 99 papers that have together received 4.4k indexed citations. Recurring topics across this work include Magnetic properties of thin films (68 papers), Quantum and electron transport phenomena (30 papers), Physics of Superconductivity and Magnetism (16 papers), Magneto-Optical Properties and Applications (16 papers), Magnetic Properties of Alloys (10 papers), Magnetic and transport properties of perovskites and related materials (9 papers), Terahertz technology and applications (9 papers) and Theoretical and Computational Physics (9 papers). The work is most often cited by research in Atomic and Molecular Physics, and Optics (3.5k citations), Structural Biology (137 citations), Condensed Matter Physics (1.0k citations), Electronic, Optical and Magnetic Materials (1.4k citations) and Electrical and Electronic Engineering (1.8k citations). Markus Münzenberg has collaborated with scholars based in Germany, United States and France. Frequent co-authors include Jakob Walowski, Henning Ulrichs, Benjamin Lenk, Jagadeesh S. Moodera, Gerrit Eilers, Martin Wolf, Stefan Blügel, Guo‐Xing Miao, Tobias Kampfrath and O. Chubykalo‐Fesenko. Their work appears in journals such as Applied Physics Letters, Physical Review B, Journal of Applied Physics, Physical Review Letters and Scientific Reports.

Rankless uses publication and citation data sourced from OpenAlex, an open and comprehensive bibliographic database. While OpenAlex provides broad and valuable coverage of the global research landscape, it—like all bibliographic datasets—has inherent limitations. These include incomplete records, variations in author disambiguation, differences in journal indexing, and delays in data updates. As a result, some metrics and network relationships displayed in Rankless may not fully capture the entirety of a scholar's output or impact.

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