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Large effect of metal substrate on magnetic anisotropy of Co on hexagonal boron nitride
Gallardo, I., Arnau, A., Delgado, F., Baltic, R., Singha, A., Donati, F., … Brune, H. (2019). Large effect of metal substrate on magnetic anisotropy of Co on hexagonal boron nitride. New Journal of Physics, 21, 073053 (13 pp.). https://doi.org/10.1088/1367-2630/ab3077
Magnetic force microscopy with frequency-modulated capacitive tip–sample distance control
Zhao, X., Schwenk, J., Mandru, A. O., Penedo, M., Baćani, M., Marioni, M. A., & Hug, H. J. (2018). Magnetic force microscopy with frequency-modulated capacitive tip–sample distance control. New Journal of Physics, 20, 013018 (11 pp.). https://doi.org/10.1088/1367-2630/aa9ca9
Lead adsorption on the Al<SUB>13</SUB>Co<SUB>4</SUB>(100) surface: heterogeneous nucleation and pseudomorphic growth
Addou, R., Shukla, A. K., Alarcón Villaseca, S., Gaudry, É., Deniozou, T., Heggen, M., … Ledieu, J. (2011). Lead adsorption on the Al13Co4(100) surface: heterogeneous nucleation and pseudomorphic growth. New Journal of Physics, 13, 103011 (19 pp.). https://doi.org/10.1088/1367-2630/13/10/103011
Ptychographic coherent diffractive imaging of weakly scattering specimens
Dierolf, M., Thibault, P., Menzel, A., Kewish, C. M., Jefimovs, K., Schlichting, I., … Pfeiffer, F. (2010). Ptychographic coherent diffractive imaging of weakly scattering specimens. New Journal of Physics, 12, 035017 (14 pp.). https://doi.org/10.1088/1367-2630/12/3/035017
A comparative scanning tunneling spectroscopy investigation of the (12110)-surface of decagonal Al–Ni–Co and the (100)-surface of its approximant Y–Al–Ni–Co
Mäder, R., Widmer, R., Gröning, P., Ruffieux, P., Steurer, W., & Gröning, O. (2010). A comparative scanning tunneling spectroscopy investigation of the (12110)-surface of decagonal Al–Ni–Co and the (100)-surface of its approximant Y–Al–Ni–Co. New Journal of Physics, 12, 073043 (12 pp.). https://doi.org/10.1088/1367-2630/12/7/073043
Creation of paired electron states in the gap of semiconducting carbon nanotubes by correlated hydrogen adsorption
Buchs, G., Krasheninnikov, A. V., Ruffieux, P., Gröning, P., Foster, A. S., Nieminen, R. M., & Gröning, O. (2007). Creation of paired electron states in the gap of semiconducting carbon nanotubes by correlated hydrogen adsorption. New Journal of Physics, 9, 275 (12 pp.). https://doi.org/10.1088/1367-2630/9/8/275