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News 2024

December 2024

Our perspective article "Proximity Effects, Topological States, and Correlated Phases in Graphene Heterostructures" published

Graphene spintronics is an emerging field of research that explores the use of graphene's extraordinary spin and charge transport properties. This Perspective explores the latest advancements in proximity effects, topological states, and correlated physics in graphene-based van-der-Waals heterostructures, discussing the fundamentals for potential applications.

The article has been published in 2D Materials.


December 2024

Our preprint "Transport Signatures of Radial Rashba Spin-Orbit Coupling at Ferromagnet/Superconductor Interfaces" published on arXiv

After predicting that the competition between conventional and chiral spin-orbit fields in Josephson junctions can lead to the unconventional supercurrent diode effect (see below), we are exploring fundamental ways to disentangle both types of spin-orbit coupling in real materials from transport measurements focusing at single-interface ferromagnet/superconductor junctions and also addressing interference with hypothetic Dresselhaus interactions.

Our latest results have been published in the preprint arXiv:2412.03994.


November 2024

Our preprint "Unconventional Josephson Supercurrent Diode Effect Induced by Chiral Spin-Orbit Coupling" published on arXiv

Together with colleagues from Sendai, we are proposing a new type of supercurrent diode effect – termed unconventional supercurrent diode effect – as a highly sensitive probe of interfacial chiral spin-orbit fields in vertical superconductor/ferromagnet/superconductor Josephson junctions.

Our latest results have been published in the preprint arXiv:2411.11570.


November 2024

Our article "Magnetotransport and Spin-Relaxation Signatures of the Radial Rashba and Dresselhaus Spin-Orbit Coupling in Proximitized Graphene" published

In an international collaboration with colleagues from Taiwan, the UK, Poland, and Slovakia, we are exploring magnetotransport signatures of radial Rashba spin-orbit fields in proximitized graphene.

Our latest results have been published in Physical Review Letters.


October 2024

Ph.D. Defense of Thomas Naimer

Thomas Naimer, Ph.D. student in our group, successfully defended his thesis entitled "Twist angle and proximiy spin-orbit coupling in graphene-based heterostructures: an ab-initio approach".

Congratulations, Thomas!


October 2024

Habilitation Colloquium of Dr. Paulo E. Faria Junior

Dr. Paulo E. Faria Junior, Research Associate in our group, has completed his Habilitation process giving an exciting talk in front of the faculty members.

Paulo's groundbreaking research, combining first-principles with phenomenological methodologies, has significantly advanced our common understanding of exciton physics in two-dimensional materials and deciphered the impact of external stimuli such as electric or magnetic fields, strain, and twisting.

We are looking forward to Paulo's continued contributions to this exciting field!

Congratulations, Paulo!


October 2024

Our group at Graphene Week 2024

With Prof. Dr. Jaroslav Fabian, Dr. Andreas Costa, Thomas Naimer, and Dr. Klaus Zollner, our team has shown a comprehensive presence at Graphene Week 2024 in Prague advertising our research on proximity and twisting effects in graphene/van-der-Waals heterostructures and the supercurrent diode effect in two-dimensional systems.


October 2024

Dr. Lukas Cvitkovich joins our group

Dr. Lukas Cvitkovich joins our group as a PostDoc. Lukas will be working on first-principles descriptions of magnetic tunnel junctions and large-scale systems.

Welcome, Lukas!


September 2024

Feature article on "Engineering Electron Spin in Van-der-Waals Heterostructures" in Europhysics News

The latest issue of Europhysics News features a highlighted article authored by Prof. Dr. Jaroslav Fabian and Dr. Klaus Zollner to illustrate the unprecedented tunability of spin interactions in van-der-Waals heterostructures through, e.g., stacking and twisting individual layers. These properties make van-der-Waals heterostructures promising candidates for spintronics devices and next-generation information technologies.

The full article is available here.


September 2024

Dr. Gusthavo Brizolla joins our group

Dr. Gusthavo Brizolla joins our group as a PostDoc. Gusthavo will be working on modeling spin-orbit torques in two-dimensional magnets from first-principles calculations.

Welcome, Gusthavo!


September 2024

Best-Poster Award for Dr. Klaus Zollner at the IC II-24 Conference

The award for the best poster presented at the International Conference on Internal Interfaces 2024 (IC II-24) in Marburg has been awarded to Dr. Klaus Zollner for his contribution on "Proximity-induced spin interactions in twisted van-der-Waals heterostructures".

Congratulations, Klaus!


July 2024

Our article "Swapping exchange and spin-orbit induced correlated phases in proximitized Bernal bilayer graphene" published

Our recent work demonstrating an efficient electrical control of various correlated phases in a single van-der-Waals/Bernal-bilayer-graphene heterostructure has been published in Physical Review B .


June 2024

Our article "Emergence of radial Rashba spin-orbit fields in twisted van der Waals heterostructures" published

Our first-principles studies proposing radial Rashba spin-orbit fields in twisted van-der-Waals heterostructures have been published in Physical Review B and highlighted as Editors' Suggestion.


May 2024

Our article "Link between supercurrent diode and anomalous Josephson effect revealed by gate-controlled interferometry" published

Together with the experimental group of Prof. Dr. Christoph Strunk/Dr. Nicola Paradiso at UR, we unraveled a direct connection between the supercurrent diode and anomalous Josephson effects in InAs-based Josephson junctions.

Our latest results have been published in Nature Communications.


May 2024

Our article "Emergent Correlated Phases in Rhombohedral Trilayer Graphene Induced by Proximity Spin-Orbit and Exchange Coupling" published

In an international collaboration, we are exploring the ramifications of proximity-induced spin-orbit and exchange coupling on the appearance of correlated phases in rhombohedral trilayer graphene.

Our latest results have been published in Physical Review Letters.


April 2024

Our article "Tuning proximity spin-orbit coupling in graphene/NbSe2 heterostructures via twist angle" published

In collaboration with colleagues from Kosice, we are exploring the tunability of the proximity-induced spin-orbit coupling in twisted graphene/NbSe2 heterostructures.

Our latest results have been published in Physical Review B.


February 2024

Our preprint "Emergence of radial Rashba spin-orbit fields in twisted van der Waals heterostructures" published on arXiv

From first-principles calculations, we are proposing Rashba spin-orbit fields with radial symmetry that emerge in twisted van-der-Waals heterostructures.

Our latest results have been published in the preprint arXiv:2402.12353.


February 2024

Our preprint "Giant asymmetric proximity-induced spin-orbit coupling in twisted graphene/SnTe heterostructure" published on arXiv

Together with colleagues from Slovakia and Poland, we are demonstrating a giant asymmetry of the proximity-induced spin-orbit coupling in twisted graphene/SnTe heterostructures.

Our latest results have been published in the preprint arXiv:2402.09045.


February 2024

Our preprint "Tuning proximity spin-orbit coupling in graphene/NbSe2 heterostructures via twist angle" published on arXiv

In collaboration with colleagues from Kosice, we are exploring the tunability of the proximity-induced spin-orbit coupling in twisted graphene/NbSe2 heterostructures.

Our latest results have been published in the preprint arXiv:2402.07533.


  1. Physics Department
  2. Condensed Matter Theory

Fabian Group

SPINTRONICS


Secretarial Office:
+49 (0)941 943 2030
fabian.office@ur.de

SFB 1277-Office:
+49 (0)941 943 2264
sfb1277.office@ur.de