Almost all of these articles can be found freely on the arXiv.

Journal Articles

*Information Trapping by Topologically Protected Edge States: Scrambling and the Butterfly Velocity*

M. Sedlmayr, H. Cheraghi, and__N. Sedlmayr__

Phys. Rev. B 108, 184303 (2023)*Quantized Thermal Hall Conductance and the Topological Phase Diagram of a Superconducting Bismuth Bilayer*

Sz. Głodzik and__N. Sedlmayr__

Phys. Rev. B 108, 184502 (2023)*Superconductivity in monolayer and few-layer graphene: III Shiba states and quasi-particle interference patterns*

E. Pangburn, L. Haurie, A. Crepieux, O. A. Awoga,__N. Sedlmayr__, A. Black-Schaffer, C. Pepin, and C. Bena

Phys. Rev. B 108, 134516 (2023)*Superconductivity in monolayer and few-layer graphene: II. Topological edge states and Chern numbers*

A. Crépieux, E. Pangburn, L. Haurie, O. A. Awoga, A. M. Black-Schaffer,__N. Sedlmayr__, C. Pépin, and C. Bena

Phys. Rev. B 108, 134515 (2023)*Dynamical quantum phase transitions following double quenches: persistence of the initial state vs dynamical phases*

H. Cheraghi and__N. Sedlmayr__

New Journal of Physics, 25, 103035 (2023)*Dynamical bulk boundary correspondence and dynamical quantum phase transitions in higher order topological insulators*

T. Masłowski and__N. Sedlmayr__

Phys. Rev. B 108, 094306 (2023)*Hinge States of Second-Order Topological Insulators as a Mach-Zehnder Interferometer*

A. Yanis Chaou, P.W. Brouwer, and__N. Sedlmayr__

Phys. Rev. B 107, 035430 (2023)*Dynamical quantum phase transitions in a mesoscopic superconducting system*

K. Wrześniewski and I. Weymann,__N. Sedlmayr__, and T. Domański

Phys. Rev. B 105, 094514 (2022)*Instability of Majorana states in Shiba chains due to leakage into a topological substrate*

__N. Sedlmayr__, and C. Bena

Journal of Physics: Condensed Matter 34, 104004 (2022)*Directional scrambling of quantum information in helical multiferroics*

M. Sekania, M. Melz,__N. Sedlmayr__, S. K. Mishra, and J. Berakdar

Phys. Rev. B 104, 224421 (2021)*Analytical and semianalytical tools to determine the topological character of Shiba chains*

__N. Sedlmayr__, V. Kaladzhyan, and C. Bena

Phys. Rev. B 104, 024508 (2021)*Unconventional topological transitions in a self-organized magnetic ladder*

M.M. Maśka,__N. Sedlmayr__, A. Kobiałka, and T. Domański

Phys. Rev. B 103, 235419 (2021)*Majorana bound states in a superconducting Rashba nanowire deposited on an antiferromagnetic surface*

A. Kobiałka,__N. Sedlmayr__, and A. Ptok

Phys. Rev. B 103, 125110 (2021)*Hybridization mechanism of the dual proximity effect in superconductor-topological insulator interfaces*

__N. Sedlmayr__and A. Levchenko

Solid State Communications 327, 114221 (2021)*How to measure the Majorana polarization of a topological planar Josephson junction*

S. Głodzik,__N. Sedlmayr__, and T. Domański

Phys. Rev. B 102, 085411 (2020)
*Local spin transfer torque and magnetoresistance in domain walls with variable width*

H. Kazemi, S. Eggert, and__N. Sedlmayr__

Phys. Rev. B 102, 064404 (2020)
*Chiral Hall effect in the kink states in topological insulators with magnetic domain walls*

M. Sedlmayr,__N. Sedlmayr__, J. Barnaś, and V.K. Dugaev

Phys. Rev. B 101, 155420 (2020)*Dimerization-induced topological superconductivity in a Rashba nanowire*

A. Kobiałka,__N. Sedlmayr__, M.M. Maśka, and T. Domański

Phys. Rev. B 101, 085402 (2020)*Quasiperiodic dynamical phase transitions in multiband topological insulators and connections with entanglement entropy and fidelity susceptibility*

T. Masłowski, and__N. Sedlmayr__

Phys. Rev. B 101, 014301 (2020)*Scaling of intrinsic domain wall magneto-resistance with confinement in electromigrated nanocontacts*

R.M. Reeve, A. Loescher, H. Kazemi, B. Dupé, T. Winkler, D. Schönke, J. Miao, K. Litzius,__N. Sedlmayr__, I. Schneider, J. Sinova, S. Eggert, and M. Kläui

Phys. Rev. B 99, 214437 (2019)*Bulk-boundary correspondence for dynamical phase transitions in one-dimensional topological insulators and superconductors*

__N. Sedlmayr__, P. Jäger, M. Maiti, and J. Sirker

Phys. Rev. B 97, 064304 (2018)*Fate of dynamical phase transitions at finite temperatures and in open systems*

__N. Sedlmayr__, M. Fleischhauer, and J. Sirker

Phys. Rev. B 97, 045147 (2018)*Bulk boundary correspondence and the existence of Majorana bound states on the edges of 2D topological superconductors*

__N. Sedlmayr__, V. Kaladzhyan, C. Dutreix, and C. Bena

Phys. Rev. B, 96, 184516 (2017)*Conductance in inhomogeneous quantum wires: Luttinger liquid predictions and quantum Monte Carlo results*

D. Morath,__N. Sedlmayr__, J. Sirker, and S. Eggert

Phys. Rev. B, 94, 115162 (2016)*Signature of a topological phase transition in long SN junctions in the spin-polarized density of states*

M. Guigou,__N. Sedlmayr__, J.M. Aguiar-Hualde, and C. Bena

Europhys. Lett., 115, 47005 (2016)*Universal fidelity near quantum and topological phase transitions in finite 1D systems*

E. König, A. Levchenko, and__N. Sedlmayr__

Phys. Rev. B, 93, 235160 (2016)*Scanning tunneling microscopy of superconducting topological surface states in Bi*_{2}Se_{3}

I.M. Dayton,__N. Sedlmayr__, V. Ramirez, T. Chasapis, R. Loloee, M. Kanatzidis, A. Levchenko, and S. Tessmer

Phys. Rev. B (Rapid Comm.), 93, 220506(R) (2016)*Majorana bound states in open quasi-1D and 2D systems with transverse Rashba coupling*

__N. Sedlmayr__, J.M. Aguiar-Hualde, and C. Bena

Phys. Rev. B, 93, 155425 (2016)*Majoranas with and without a 'character': hybridization, braiding and Majorana number*

__N. Sedlmayr__, M. Guigou, P. Simon, and C. Bena

Journal of Physics: Condensed Matter, 27, 455601 (2015)*Visualising Majorana bound states in 1D and 2D using the generalized Majorana polarization*

__N. Sedlmayr__, and C. Bena

Phys. Rev. B, 92, 115115 (2015)-
*Flat Majorana bands in 2-d lattices with inhomogeneous magnetic fields: topology and stability*

__N. Sedlmayr__, J.M. Aguiar-Hualde, and C. Bena

Phys. Rev. B, 91, 115415 (2015) *Boundary fidelity and entanglement in the symmetry protected topological phase of the SSH model*

J. Sirker, M. Maiti, N.P. Konstantinidis,and__N. Sedlmayr__

Journal of Statistical Mechanics: Theory and Experiment, P10032 (2014)*Locality and thermalization in closed quantum systems*

J. Sirker, N. Konstantinidis, F. Andraschko, and__N. Sedlmayr__

Phys. Rev. A 89 042104 (2014)

*Conducting fixed points for inhomogeneous quantum wires: a conformally invariant boundary theory*

__N. Sedlmayr__, D. Morath, J. Sirker, S. Eggert, and I. Affleck

Phys. Rev. B, 89, 045133 (2014)*Dynamics of the polarization of a pinned domain wall in a magnetic nanowire*

__N. Sedlmayr__, V.K. Dugaev, and J. Berakdar

Physica Status Solidi (b), 251, 235 (2014)*The two-band Luttinger liquid with spin-orbit coupling: applications to monatomic chains on surfaces*

__N. Sedlmayr__, P. Korell, and J. Sirker

Phys. Rev. B, 88, 195113 (2013)*Closed and open system dynamics in a fermionic chain with a microscopically specified bath: relaxation and thermalization*

__N. Sedlmayr__, J. Ren, F. Gebhard, and J. Sirker

Phys. Rev. Lett., 110, 100406 (2013)*Theory of the conductance of interacting quantum wires with good contacts and applications to carbon nanotubes*

__N. Sedlmayr__, P. Adam, and J. Sirker

Phys. Rev. B, 87, 035439 (2013)*Transport and scattering in inhomogeneous quantum wires*

__N. Sedlmayr__, J. Ohst, I. Affleck, J. Sirker, and S. Eggert

Phys. Rev. B (Rapid Comm.), 86, 121302(R) (2012)-
*Negative differential magnetoresistance in ferromagnetic wires with domain walls*

__N. Sedlmayr__and J. Berakdar

Phys. Rev. B, 86, 024409 (2012) *Particle injection into a chain: decoherence versus relaxation for Hermitian and non-Hermitian dynamics*

F. Gebhard, K. zu Münster, J. Ren,__N. Sedlmayr__, J. Sirker, and B. Ziebarth

Annalen der Physik, 524, 286 (2012)*Indirect interaction of domain walls*

__N. Sedlmayr__, V.K. Dugaev, M. Inglot, and J. Berakdar

Physica Status Solidi RRL, 5, 450 (2011)*Electron scattering from domain walls in ferromagnetic Luttinger liquids*

__N. Sedlmayr__, S. Eggert, and J. Sirker

Phys. Rev. B, 84, 024424 (2011)*Spin density waves and domain wall interactions in nanowires*

__N. Sedlmayr__, V.K. Dugaev, and J. Berakdar

Phys. Rev. B, 83, 174447 (2011)*Role of non-collinear magnetization: from ferromagnetic nanowires to rings*

__N. Sedlmayr__, V.K. Dugaev, and J. Berakdar

Physica Status Solidi (b), 247, 2603 (2010)*Current-induced interactions of multiple domain walls in magnetic quantum wires*

__N. Sedlmayr__, V.K. Dugaev, and J. Berakdar

Phys. Rev. B, 79, 174422 (2009)*Transport Properties of an Interacting Quantum Dot in a Non-Uniform Magnetization*

__N. Sedlmayr__and J. Berakdar

Europhys. Lett., 83, 57003 (2008)*Tunnelling Density of States at Coulomb Blockade Peaks*

__N. Sedlmayr__, I.V. Yurkevich, and I.V. Lerner

Europhys. Lett., 76, 109 (2006)

Preprints

*Dirac surface states in superconductors: a dual topological proximity effect*

__N. Sedlmayr__, E. W. Goodwin, M. Gottschalk, I.M. Dayton, C. Zhang, E. Huemiller, R. Loloee, T.C. Chasapis, M. Salehi, N. Koirala, M.G. Kanatzidis, S. Oh, D.J. Van Harlingen, A. Levchenko, and S.H. Tessmer

arXiv:1805.12330 (2018)

Lecture Notes and Reviews

*Dynamical Phase Transitions in Topological Insulators*

__N. Sedlmayr__

Acta Physica Polonica A, 135, 1191 (2019)*Charge and spin transport in magnetic nanowires*

__N. Sedlmayr__, J. Berakdar, M.A.N. Araújo, V.K. Dugaev, and J. Barnas

Nanowires - Fundamental Research (Intech, Croatia) (2011)

Conference Proceedings

*Current Induced Dynamics of One-Dimensional Skyrmions*

M. Sedlmayr,__N. Sedlmayr__, and V. Dugaev

Acta Physica Polonica A, 135, 1268 (2019)*Non-Collinear Ferromagnetic Luttinger Liquids*

__N. Sedlmayr__, S. Eggert, and J. Sirker

J. Phys.: Conf. Ser., 303, 012107 (2011)*Spin and charge transport through non-collinear magnetic nanowires*

__N. Sedlmayr__, V.K. Dugaev, J. Berakdar, V.R. Vieira, M.A.N. Araújo, and J. Barnas

J. Magn. Magn. Mater., 322, 1419 (2010)

PhD Thesis and Habilitation

- The Coulomb Blockade in Quantum Dots and a Metamagnetic Quantum Critical Point

PhD Thesis, The University of Birmingham, 2006 - Description of Work for Habilitation

Awarded by the Institute of Physics, UMCS, 2020