Jacob Linder
Background and activities
Jacob Linder holds a position as Professor of Physics at the Norwegian University of Science and Technology since 2013. He received his Ph.D in physics in 2009, winning several national awards for best Ph.D degree.
His main research interest is the quantum physics that emerges when combining materials with different properties in hybrid structures, such as superconductors, Dirac materials, magnets, and materials with topological properties.
Since 2017, he is one of the primary investigators in the Center of Excellence QuSpin at NTNU.
Links
Center of Excellence QuSpin: https://www.ntnu.edu/quspin
Research group: https://sites.google.com/view/lindergroup
Research Group
The research done in our group is focused on quantum condensed matter theory.
- Atousa Ghanbari (Ph.D candidate)
- Eirik Holm Fyhn (Ph.D candidate)
- Lina Grøvan Johnsen (Ph.D candidate)
Scientific, academic and artistic work
A selection of recent journal publications, artistic productions, books, including book and report excerpts. See all publications in the database
Journal publications
- (2020) Spin accumulation induced by a singlet supercurrent. Physical review B (PRB). vol. 102 (10).
- (2020) Combined Zeeman and orbital effect on the Josephson effect in rippled graphene. Physical review B (PRB). vol. 102.
- (2020) Superconductivity-induced change in magnetic anisotropy in epitaxial ferromagnet-superconductor hybrids with spin-orbit interaction. Physical review B (PRB). vol. 102 (2).
- (2020) Controlling the Superconducting Transition by Rotation of an Inversion Symmetry-Breaking Axis. Physical Review Letters. vol. 125 (10).
- (2020) Transition between canted antiferromagnetic and spin-polarized ferromagnetic quantum Hall states in graphene on a ferrimagnetic insulator. Physical review B (PRB).
- (2020) Prediction of a paramagnetic Meissner effect in voltage-biased superconductor/normal-metal bilayers. Physical Review Letters. vol. 124.
- (2019) Quasiclassical theory for interfaces with spin-orbit coupling. Physical review B (PRB). vol. 100 (6).
- (2019) Long-ranged triplet supercurrent in a single in-plane ferromagnet with spin-orbit coupled contacts to superconductors. Physical review B (PRB). vol. 100 (22).
- (2019) Controllable vortex loops in superconducting proximity systems. Physical review B (PRB). vol. 100 (21).
- (2019) Superconducting vortices in half-metals. Physical review B (PRB). vol. 100 (22).
- (2019) Inverse proximity effect in s-wave and d-wave superconductors coupled to topological insulators. Physical review B (PRB). vol. 99 (9).
- (2019) Current Control of Magnetism in Two-Dimensional Fe3GeTe2. Physical Review Letters. vol. 122 (21).
- (2019) Magnetization reorientation due to the superconducting transition in heavy-metal heterostructures. Physical review B (PRB). vol. 99 (13).
- (2019) Odd-frequency superconductivity. Reviews of Modern Physics. vol. 91 (4).
- (2019) Voltage control of superconducting exchange interaction and anomalous Josephson effect. Physical review B (PRB). vol. 99 (21).
- (2019) Controlling spin supercurrents via nonequilibrium spin injection. Scientific Reports. vol. 9.
- (2019) Direct and inverse superspin Hall effect in two-dimensional systems: Electrical detection of spin supercurrents. Physical review B (PRB). vol. 99 (17).
- (2018) Vortex spin valve on a topological insulator. Physical review B (PRB). vol. 98 (14).
- (2018) Field-free nucleation of antivortices and giant vortices in non-superconducting materials. Physical Review Letters. vol. 120 (20).
- (2018) Controlling the superconducting transition by spin-orbit coupling. Physical review B (PRB). vol. 97 (18).