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Multiple magnetic bilayers and unconventional criticality without frustration in BaCuSi<sub>2</sub>O<sub>6</sub>
Allenspach, S., Biffin, A., Stuhr, U., Tucker, G. S., Ohira-Kawamura, S., Kofu, M., Voneshen, D. J., Boehm, M., Normand, B., Laflorencie, N., Mila, F., & Rüegg, C. (2020). Multiple magnetic bilayers and unconventional criticality without frustration in BaCuSi2O6. Physical Review Letters, 124(17), 177205 (7 pp.). https://doi.org/10.1103/PhysRevLett.124.177205
The instrument suite of the European Spallation Source
Andersen, K. H., Argyriou, D. N., Jackson, A. J., Houston, J., Henry, P. F., Deen, P. P., Toft-Petersen, R., Beran, P., Strobl, M., Arnold, T., Glavic, A., Schütz, S., Stahn, J., Lehmann, E., Morgano, M., Schefer, J., Filges, U., Klauser, C., Niedermayer, C., … Schreyer, A. (2020). The instrument suite of the European Spallation Source. Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 957, 163402 (39 pp.). https://doi.org/10.1016/j.nima.2020.163402
Grain orientation dependence of the forward and reverse fcc ↔ hcp transformation in FeMnSi-based shape memory alloys studied by <em>in situ</em> neutron diffraction
Arabi-Hashemi, A., Polatidis, E., Smid, M., Panzner, T., & Leinenbach, C. (2020). Grain orientation dependence of the forward and reverse fcc ↔ hcp transformation in FeMnSi-based shape memory alloys studied by in situ neutron diffraction. Materials Science and Engineering A: Structural Materials: Properties, Microstructure and Processing, 782, 139261 (11 pp.). https://doi.org/10.1016/j.msea.2020.139261
Melts of single-chain nanoparticles: a neutron scattering investigation
Arbe, A., Rubio, J., Malo de Molina, P., Maiz, J., Pomposo, J. A., Fouquet, P., Prevost, S., Juranyi, F., Khaneft, M., & Colmenero, J. (2020). Melts of single-chain nanoparticles: a neutron scattering investigation. Journal of Applied Physics, 127(4), 044305 (11 pp.). https://doi.org/10.1063/1.5140705
Broken time-reversal symmetry in the topological superconductor UPt<sub>3</sub>
Avers, K. E., Gannon, W. J., Kuhn, S. J., Halperin, W. P., Sauls, J. A., DeBeer-Schmitt, L., Dewhurst, C. D., Gavilano, J., Nagy, G., Gasser, U., & Eskildsen, M. R. (2020). Broken time-reversal symmetry in the topological superconductor UPt3. Nature Physics, 16, 531-535. https://doi.org/10.1038/s41567-020-0822-z
Neutron dark-field imaging applied to porosity and deformation-induced phase transitions in additively manufactured steels
Bacak, M., Valsecchi, J., Čapek, J., Polatidis, E., Kaestner, A., Arabi-Hashemi, A., Kruk, I., Leinenbach, C., Long, A. M., Tremsin, A., Vogel, S. C., Watkins, E. B., & Strobl, M. (2020). Neutron dark-field imaging applied to porosity and deformation-induced phase transitions in additively manufactured steels. Materials and Design, 195, 109009 (9 pp.). https://doi.org/10.1016/j.matdes.2020.109009
Investigation of particle dynamics and solidification in a two-phase system by neutron radiography
Baranovskis, R., Sarma, M., Ščepanskis, M., Beinerts, T., Gaile, A., Eckert, S., Räbiger, D., Lehmann, E. H., Thomsen, K., & Trtik, P. (2020). Investigation of particle dynamics and solidification in a two-phase system by neutron radiography. Magnetohydrodynamics, 56(1), 43-50. https://doi.org/10.22364/mhd.56.1.4
Quantifying diffusion through interfaces of lithium-ion battery active materials
Benedek, P., Forslund, O. K., Nocerino, E., Yazdani, N., Matsubara, N., Sassa, Y., Jurànyi, F., Medarde, M., Telling, M., Månsson, M., & Wood, V. (2020). Quantifying diffusion through interfaces of lithium-ion battery active materials. ACS Applied Materials and Interfaces, 12(14), 16243-16249. https://doi.org/10.1021/acsami.9b21470
A quantitative comparison of the counting significance of van Hove Integral spectroscopy and quasielastic neutron scattering
Benedetto, A., & Kearley, G. J. (2020). A quantitative comparison of the counting significance of van Hove Integral spectroscopy and quasielastic neutron scattering. Scientific Reports, 10(1), 6350 (8 pp.). https://doi.org/10.1038/s41598-020-63193-3
From <em>just </em>physics to biophysics of biological systems
Benedetto, A. (2020). From just physics to biophysics of biological systems. Biophysical Reviews. https://doi.org/10.1007/s12551-020-00756-8
Argon bubble flow in liquid gallium in external magnetic field
Birjukovs, M., Dzelme, V., Jakovics, A., Thomsen, K., & Trtik, P. (2020). Argon bubble flow in liquid gallium in external magnetic field. International Journal of Applied Electromagnetics and Mechanics, 63(S1), S51-S57. https://doi.org/10.3233/JAE-209116
Phase boundary dynamics of bubble flow in a thick liquid metal layer under an applied magnetic field
Birjukovs, M., Dzelme, V., Jakovics, A., Thomsen, K., & Trtik, P. (2020). Phase boundary dynamics of bubble flow in a thick liquid metal layer under an applied magnetic field. Physical Review Fluids, 5(7), 061601(R). https://doi.org/10.1103/PhysRevFluids.5.061601
Energy domain versus time domain precursor fluctuations above the Verwey transition in magnetite
Borroni, S., Tucker, G. S., Stuhr, U., Lorenzana, J., Rønnow, H. M., & Carbone, F. (2020). Energy domain versus time domain precursor fluctuations above the Verwey transition in magnetite. Physical Review B, 101(5), 054303 (8 pp.). https://doi.org/10.1103/PhysRevB.101.054303
Ionic liquid dynamics in nanoporous carbon: a pore-size- and temperature-dependent neutron spectroscopy study on supercapacitor materials
Busch, M., Hofmann, T., Frick, B., Embs, J. P., Dyatkin, B., & Huber, P. (2020). Ionic liquid dynamics in nanoporous carbon: a pore-size- and temperature-dependent neutron spectroscopy study on supercapacitor materials. Physical Review Materials, 4(5), 055401 (12 pp.). https://doi.org/10.1103/PhysRevMaterials.4.055401
Frame overlap Bragg edge imaging
Busi, M., Čapek, J., Polatidis, E., Hovind, J., Boillat, P., Tremsin, A. S., Kockelmann, W., & Strobl, M. (2020). Frame overlap Bragg edge imaging. Scientific Reports, 10(1), 14867 (10 pp.). https://doi.org/10.1038/s41598-020-71705-4
How the dynamics of subsurface hydration regulates protein-surface interactions
Bülbül, E., Hegemann, D., Geue, T., & Heuberger, M. (2020). How the dynamics of subsurface hydration regulates protein-surface interactions. Colloids and Surfaces B: Biointerfaces, 190, 110908 (8 pp.). https://doi.org/10.1016/j.colsurfb.2020.110908
Bragg-edge attenuation spectra at voxel level from 4D wavelength-resolved neutron tomography
Carminati, C., Strobl, M., Minniti, T., Boillat, P., Hovind, J., Morgano, M., Holm Rod, T., Polatidis, E., Valsecchi, J., Mannes, D., Kockelmann, W., & Kaestner, A. (2020). Bragg-edge attenuation spectra at voxel level from 4D wavelength-resolved neutron tomography. Journal of Applied Crystallography, 53(1), 188-196. https://doi.org/10.1107/S1600576720000151
Effect of scattering correction in neutron imaging of hydrogenous samples using the black body approach
Carminati, C., Boillat, P., Laemmlein, S., Heckova, P., Snehota, M., Mannes, D., Hovind, J., Strobl, M., & Kaestner, A. (2020). Effect of scattering correction in neutron imaging of hydrogenous samples using the black body approach. In U. Garbe, F. Salvemini, & J. J. Bevitt (Eds.), Materials research proceedings: Vol. 15. Neutron radiography. WCNR-11 (pp. 174-179). https://doi.org/10.21741/9781644900574-27
<em>In situ</em> control of the helical and skyrmion phases in Cu<sub>2</sub>OSeO<sub>3</sub> using high-pressure helium gas up to 5 kbar
Crisanti, M., Reynolds, N., Živković, I., Magrez, A., Rønnow, H. M., Cubitt, R., & White, J. S. (2020). In situ control of the helical and skyrmion phases in Cu2OSeO3 using high-pressure helium gas up to 5 kbar. Physical Review B, 101(21), 214435 (9 pp.). https://doi.org/10.1103/PhysRevB.101.214435
Complex antiferromagnetic order in the garnet Co<sub>3</sub>Al<sub>2</sub>Si<sub>3</sub>O<sub>12</sub>
Cui, Q., Huang, Q., Alonso, J. A., Sheptyakov, D., De la Cruz, C. R., Fernández-Díaz, M. T., Wang, N. N., Cai, Y. Q., Li, D., Dong, X. L., Zhou, H. D., & Cheng, J. G. (2020). Complex antiferromagnetic order in the garnet Co3Al2Si3O12. Physical Review B, 101(14), 144424 (9 pp.). https://doi.org/10.1103/PhysRevB.101.144424
 

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