Gustav Bihlmayer

21.4k citations

266 papers · 15.5k indexed · 6 hit papers · h-index 57

Condensed Matter Physics top 0.1%
- Physics of Superconductivity and Magnetism 64
- Advanced Condensed Matter Physics 31
Atomic and Molecular Physics, and Optics top 0.05%
- Magnetic properties of thin films 95
- Quantum and electron transport phenomena 79
- Topological Materials and Phenomena 77
- Surface and Thin Film Phenomena 54
- Advanced Chemical Physics Studies 33
Electronic, Optical and Magnetic Materials top 0.5%
Materials Chemistry top 0.5%
- Graphene research and applications 45
Electrical and Electronic Engineering top 1%

Co-authors: Stefan Blügel Stefan Heinze K. Szot W. Speier Rainer Waser R. Wiesendanger Е. В. Чулков Kirsten von Bergmann
Cited by: Condensed Matter Physics Atomic and Molecular Physics, and Optics Electronic, Optical and Magnetic Materials
Journals: Nature (1 paper)Science (1 paper)Physical Review Letters (31 papers)
Partner nations: Germany Spain United States

In The Last Decade

Gustav Bihlmayer

260 papers receiving 15.2k citations

Hit Papers

6 papers align trajectories log scale

What are hit papers?

Hit papers significantly outperform the citation benchmark for their cohort. A paper qualifies if it has ≥500 total citations, achieves ≥1.5× the top-1% citation threshold for papers in the same subfield and year (this is the minimum needed to enter the top 1%, not the average within it), or reaches the top citation threshold in at least one of its specific research topics.

2011 Nature Physics
2009 Science
2008 Physical Review B
2007 Nature
2006 Nature Materials
2004 Physical Review Letters

Peers

Countries citing papers authored by Gustav Bihlmayer

Since Specialization

Citations

This map shows the geographic impact of Gustav Bihlmayer'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 Gustav Bihlmayer with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Gustav Bihlmayer more than expected).

Fields of papers citing papers by Gustav Bihlmayer

Since Specialization

Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Gustav Bihlmayer. 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 Gustav Bihlmayer. The network helps show where Gustav Bihlmayer may publish in the future.

Co-authorship network

The 25 scholars most cited alongside Gustav Bihlmayer, 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 Gustav Bihlmayer Line = papers co-authored together Gustav Bihlmayer links everyone, so they are left out of the graph.

All Works

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20 of 20 papers shown

#	Work
1	Spin–orbit effects in the surface state of Fe(001) revealed by full surface Brillouin zone mapping New Journal of Physics ·Ewa Młyńczak,Ardra Surendran,S Shaju,K. Freindl,J. Korecki,Ewa Madej,D. Wilgocka‐Ślęzak,Magdalena Szczepanik,Tomasz Sobol,Irene Aguilera,Gustav Bihlmayer,Stefan Blügel,N. Spiridis	2025	0
2	Transition to Metallic and Superconducting States Induced by Thermal or Electrical Deoxidation of the Dislocation Network in the Surface Region of SrTiO3 Nanomaterials ·K. Szot,Christian Rodenbücher,K. Rogacki,Gustav Bihlmayer,W. Speier,Krystian Roleder,F. Krok,H. Keller,Arndt Simon,A. Bussmann‐Holder	2024	0
3	Engineering Epitaxial Interfaces for Topological Insulator — Superconductor Hybrid Devices with Al Electrodes Advanced Quantum Technologies ·Abdur Rehman Jalil,Tobias Schmitt,Philipp Rüßmann,Xian‐Kui Wei,Benedikt Frohn,Michael Schleenvoigt,Wilhelm Wittl,Xiao Hou,Anne Schmidt,Kaycee Underwood,Gustav Bihlmayer,M. Luysberg,Joachim Mayer,Stefan Blügel,Detlev Grützmacher,Peter Schüffelgen	2024	2
4	Phonons from density-functional perturbation theory using the all-electron full-potential linearized augmented plane-wave method FLEUR ^* Electronic Structure ·Christian-Roman Gerhorst,Alexander Neukirchen,Daniel Aaron Klüppelberg,Gustav Bihlmayer,Markus Betzinger,Gregor Michalicek,Daniel Wortmann,Stefan Blügel	2023	2
5	Giant and Tunable Out-of-Plane Spin Polarization of Topological Antimonene Nano Letters ·Polina M. Sheverdyaeva,Conor Hogan,Gustav Bihlmayer,Jun Fujii,I. Vobornik,Matteo Jugovac,Asish K. Kundu,Sandra Gardonio,Zipporah Rini Benher,Giovanni Di Santo,Sara Gonzalez,L. Petaccia,C. Carbone,Paolo Moras	2023	5
6	Inducing Single Spin‐Polarized Flat Bands in Monolayer Graphene Advanced Materials ·Matteo Jugovac,Iulia Cojocariu,J. Sánchez‐Barriga,Pierluigi Gargiani,Manuel Valvidares,Vitaliy Feyer,Stefan Blügel,Gustav Bihlmayer,Paolo Perna	2023	17
7	Rashba-like physics in condensed matter Nature Reviews Physics ·Gustav Bihlmayer,Paul Noël,D. V. Vyalikh,Е. В. Чулков,Aurélien Manchon	2022	122
8	Orbital contributions in the element-resolved valence electronic structure of Bi2Se3 Physical review. B. ·Cheng‐Tai Kuo,Shih‐Chieh Lin,Jean‐Pascal Rueff,Zhesheng Chen,Irene Aguilera,Gustav Bihlmayer,Łukasz Pluciński,I. L. Graff,G. Conti,Ivan A. Vartanyants,Claus M. Schneider,C. S. Fadley	2021	3
9	Unconventional Co-Existence of Insulating Nano-Regions and Conducting Filaments in Reduced SrTiO₃: Mode Softening, Local Piezoelectricity, and Metallicity SHILAP Revista de lepidopterología ·A. Bussmann‐Holder,H. Keller,Arndt Simon,Gustav Bihlmayer,Krystian Roleder,K. Szot	2020	12
10	Electronic Structure of Oxygen-Deficient SrTiO3 and Sr2TiO4 Crystals ·A. Al‐Zubi,Gustav Bihlmayer,Stefan Blügel	2019	20
11	Kink far below the Fermi level reveals new electron-magnon scattering channel in Fe Nature Communications ·Ewa Młyńczak,Martina Müller,Pika Gospodarič,Tristan Heider,Irene Aguilera,Gustav Bihlmayer,Mathias Gehlmann,Matteo Jugovac,Giovanni Zamborlini,Christian Tusche,S. Suga,Vitaliy Feyer,Łukasz Pluciński,Christoph Friedrich,Stefan Blügel,Claus M. Schneider	2019	19
12	Mapping the band structure of GeSbTe phase change alloys around the Fermi level BOA (University of Milano-Bicocca) ·Jens Kellner,Gustav Bihlmayer,Marcus Liebmann,Sebastian Otto,C. Pauly,Jos E. Boschker,Valeria Bragaglia,Stefano Cecchi,Rui Ning Wang,Volker L. Deringer,Philipp Küppers,P. Uday Bhaskar,Evangelos Golias,J. Sánchez‐Barriga,Richard Dronskowski,Thomas Fauster,O. Rader,Raffaella Calarco,Markus Morgenstern	2018	21
13	Towards microscopic control of the magnetic exchange coupling at the surface of a topological insulator Journal of Physics Materials ·Philipp Rüßmann,Sanjoy Kr Mahatha,Paolo Sessi,Miguel A. Valbuena,Thomas Bathon,K. Fauth,S. Godey,Aitor Mugarza,К. А. Кох,О. Е. Терещенко,Pierluigi Gargiani,Manuel Valvidares,Erika Jiménez,N. B. Brookes,M. Bode,Gustav Bihlmayer,Stefan Blügel,Phivos Mavropoulos,C. Carbone,A. Barla	2018	15
14	Direct Observation of the Band Gap Transition in Atomically Thin ReS₂ Nano Letters ·Mathias Gehlmann,Irene Aguilera,Gustav Bihlmayer,Slavomír Nemšák,Philipp Nagler,Pika Gospodarič,Giovanni Zamborlini,Markus Eschbach,Vitaliy Feyer,Florian Kronast,Ewa Młyńczak,Tobias Korn,Łukasz Pluciński,Christian Schüller,Stefan Blügel,Claus M. Schneider	2017	63
15	A combined experimental and theoretical study of Rashba-split surface states on the (√{ 3} ×√{ 3}) Pb/Ag(111) R30 ∘ surface APS ·M. Bode,Lydia El-Kareh,A. Buchter,Hendrik Bentmann,F. Reinert,Stefan Blügel,Gustav Bihlmayer	2015	1
16	調節できるFermi準位を持つ元素トポロジカル絶縁体:InSb(001)上の歪があるα-Sn Physical Review Letters ·Arne Barfuss,L. Dudy,M. R. Scholz,H. Roth,P Hoepfner,C. Blumenstein,G. Landolt,J. Hugo Dil,Nick Plumb,M. Radović,Aaron Bostwick,Eli Rotenberg,A. Fleszar,Gustav Bihlmayer,Daniel Wortmann,G Li,W. Hanke,R. Claessen,J. D. Schaefer	2013	13
17	fcc C 60 H n における弱い反強磁性超交換相互作用 Physical Review B ·Yun-Ki Choi,Jun-Hyung Cho,Sanyal Biplab,Gustav Bihlmayer	2012	2
18	Ge(111)上のAg薄膜のsp準位トポロジーに対する基板バンドの影響 Physical Review B ·Paolo Moras,D. Topwal,Polina M. Sheverdyaeva,Leonardo Ferrari,Jun Fujii,Gustav Bihlmayer,Stefan Bluegel,C. Carbone	2009	16
19	極薄膜の磁区配向を説明するDzyaloshinskii-Moriya相互作用:Fe/W(110) Physical Review B ·Marcus Heide,Gustav Bihlmayer,Stefan Bluegel	2008	7
20	Structural and magnetic properties of the (001) and (111) surfaces of the half-metal NiMnSb Journal of Physics Condensed Matter ·Marjana Ležaić,I. Galanakis,Gustav Bihlmayer,Stefan Blügel	2005	34

About Gustav Bihlmayer

Gustav Bihlmayer is a scholar working on Condensed Matter Physics, Atomic and Molecular Physics, and Optics and Electronic, Optical and Magnetic Materials, having authored 266 papers that have together received 15.5k indexed citations. Recurring topics across this work include Magnetic properties of thin films (95 papers), Quantum and electron transport phenomena (79 papers), Topological Materials and Phenomena (77 papers), Physics of Superconductivity and Magnetism (64 papers), Surface and Thin Film Phenomena (54 papers), Graphene research and applications (45 papers), Advanced Chemical Physics Studies (33 papers) and Advanced Condensed Matter Physics (31 papers). The work is most often cited by research in Condensed Matter Physics (5.6k citations), Atomic and Molecular Physics, and Optics (11.3k citations) and Electronic, Optical and Magnetic Materials (3.5k citations). Gustav Bihlmayer has collaborated with scholars based in Germany, Spain and United States. Frequent co-authors include Stefan Blügel, Stefan Heinze, K. Szot, W. Speier, Rainer Waser, R. Wiesendanger, Е. В. Чулков, Kirsten von Bergmann, Marcus Heide and André Kubetzka. Their work appears in journals such as Nature, Science and Physical Review Letters.

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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