Publications

2025

[23] Spin-disorder-induced angular anisotropy in polarized magnetic neutron scattering.
Phys. Rev. Lett. 135, 196706 – November 2025 – DOI – ArXiV
I. Titov, M. Bersweiler, M. P. Adams, E. P. Sinaga, V. Rai, S. Liscak, M. Lahr, T. L. Schmidt, V. M. Kuchkin, A. Haller, K. Suzuki, N.-J. Steinke, D. A. Venero, D. Honecker, J. Kohlbrecher, L. F. Barquin, A. Michels

[22] Micromagnetic structure of oxidized magnetite nanoparticles: sharp structural versus diffuse magnetic interface.
Nanoscale 17, 26203–26213 – November 2025 – DOI – ArXiV
E. M. Jefremovas, M. P. Adams, L. Gandarias, L. Marcano, J. Alonso, A. Michels, J. Leliaert

[21] Magnetic Small-Angle Neutron Scattering From Nanoparticles: Theory and Simulation of Surface Anisotropy and Magnetodipolar Interaction Effects Beyond the Superspin Model.
Doctoral Thesis – University of Luxembourg – July 2025 – PDF – DOI
M. P. Adams

[20] Quantum and classical magnetic Bloch points.
Phys. Rev. Research 7, 013195 – February 2025 – DOI – ArXiV
V. M. Kuchkin, A. Haller, S. Liscak, M. P. Adams, V. Rai, E. P. Sinaga, A. Michels, T. L. Schmidt

2024

[19] Magnetic microstructure of nanocrystalline Fe–Nb–B alloys as seen by small-angle neutron and x-ray scattering.
Phys. Rev. B 110, 054437 – August 2024 (Editor’s Suggestion) – DOI – ArXiV
V. Rai, I. Titov, M. P. Adams, K. Suzuki, J. Kohlbrecher, A. Michels

[18] Low-frequency signature of magnetization nutation in nanomagnets.
Phys. Rev. B 110, 054415 – August 2024 – DOI – ArXiV
M. P. Adams, R. Bastardis, A. Michels, H. Kachkachi

[17] Neutron scattering signature of the Dzyaloshinskii–Moriya interaction in nanoparticles.
Phys. Rev. B 110, 054404 – August 2024 – DOI – ArXiV
E. P. Sinaga, M. P. Adams, E. H. Hasdeo, A. Michels

[16] Understanding two-dimensional tractor magnets: Theory and realizations.
Am. J. Phys. 92, 576–582 – August 2024 – DOI – ArXiV
M. P. Adams

[15] Framework for polarized magnetic neutron scattering from nanoparticle assemblies with vortex-type spin textures.
Phys. Rev. B 110, 014420 – July 2024 (Editor’s Suggestion) – DOI – ArXiV
M. P. Adams, E. P. Sinaga, S. Liscak, A. Michels

[14] Unveiling nanoparticle spin structures through neutron scattering.
Neutron News, 2024 – DOI
M. P. Adams, E. P. Sinaga, H. Kachkachi, A. Michels

[13] Signature of surface anisotropy in the spin-flip neutron scattering cross section of spherical nanoparticles: Atomistic simulations and analytical theory.
Phys. Rev. B 109, 024429 – January 2024 – DOI – ArXiV
M. P. Adams, E. P. Sinaga, H. Kachkachi, A. Michels

2023

[12] Fingerprint of vortexlike flux closure in an isotropic Nd–Fe–B bulk magnet.
Phys. Rev. B 108, 094434 – September 2023 – DOI – ArXiV
M. Bersweiler, Y. Oba, E. P. Sinaga, I. Peral, I. Titov, M. P. Adams, V. Rai, K. L. Metlov, A. Michels

[11] Spatial magnetization profile in spherical nanomagnets with surface anisotropy: Green’s function approach.
Phys. Scr. 98, 105512 – September 2023 – DOI – ArXiV
M. P. Adams, A. Michels, H. Kachkachi

[10] On the angular anisotropy of the randomly averaged magnetic neutron scattering cross section of nanoparticles.
IUCrJ 10, 261–269 – May 2023 – DOI – ArXiV
M. P. Adams, E. P. Sinaga, A. Michels

[9] Micromagnetic simulation of neutron scattering from spherical nanoparticles: effect of pore-type defects.
Phys. Rev. B 107, 014416 – January 2023 – DOI – ArXiV
E. P. Sinaga, M. P. Adams, M. Bersweiler, L. G. Vivas, E. H. Hasdeo, J. Lelialert, P. Bender, D. Honecker, A. Michels

2022

[8] Magnetic neutron scattering from spherical nanoparticles with Néel surface anisotropy: atomistic simulations.
J. Appl. Cryst. 55, 1488–1499 – December 2022 – DOI – ArXiV
M. P. Adams, A. Michels, H. Kachkachi

[7] Magnetic neutron scattering from spherical nanoparticles with Néel surface anisotropy: analytical treatment.
J. Appl. Cryst. 55, 1475–1487 – December 2022 – DOI – ArXiV
M. P. Adams, A. Michels, H. Kachkachi

[6] MuMag2022: a software tool for analyzing magnetic-field-dependent unpolarized small-angle neutron scattering data of bulk ferromagnets.
J. Appl. Cryst. 55, 1055–1062 – August 2022 – DOI
M. P. Adams, M. Bersweiler, E. M. Jefremovas, A. Michels

[5] Resolving the complex spin structure in Fe-based soft magnetic nanocrystalline material by magnetic small-angle neutron scattering.
Neutron News, 2022 – DOI
M. Bersweiler, M. P. Adams, I. Peral, J. Kohlbrecher, K. Suzuki, A. Michels

[4] Unraveling the magnetic softness in Fe–Ni–B-based nanocrystalline material by magnetic small-angle neutron scattering.
IUCrJ 9, 65–72 – January 2022 – DOI – ArXiV
M. Bersweiler, M. P. Adams, I. Peral, J. Kohlbrecher, K. Suzuki, A. Michels

2020

[3] Global Sensitivity Analysis on the Torque Accuracy of the Powertrain in Electric Vehicles.
IFAC PapersOnLine 53(2), 14067–14072 – 2020 – DOI
M. Braband, M. P. Adams, A. Wilhelmi, M. Scherer

[2] N-Körper Langevin-Dynamik-Simulation magnetischer Nanopartikel mit MATLAB.
Master Thesis – University of Applied Sciences Trier – 2020 – PDF / Google Drive
M. P. Adams

2018

[1] Empirical Verification of COMSOL® – Simulation of Resonance Frequency of an Archimedean Spiral Coil.
COMSOL Conference Lausanne 2018 – DOI / Link
M. P. Adams, K. P. Koch