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97. Tiedke, S., Schmitz, T., Prume, K., Roelofs, A., Schneller, T., Kall, U., Waser,
R., Ganpule, C., Nagarajan, V., Stanishevsky, A., Ramesh, R.: Direct hystere-
sis measurements of single nanosized ferroelectric capacitors contacted with an
atomic force microscope. Appl. Phys. Lett.
79
(22), 3678 (2011)
98. Szafraniak, I., Harnagea, C., Scholz, R., Bhattacharyya, S., Hesse, D., Alexe, M.:
Ferroelectric epitaxial nanocrystals obtained by a self-patterning method. Appl.
Phys. Lett.
83
(11), 2211 (2003)
99. Yun, W., Urban, J., Gu, Q., Park, H.: Ferroelectric properties of individual barium
titanate nanowires investigated by scanned probe microscopy. Nano Lett.
2
(5),
447 (2002)
100. Clark, E.: Ferromagnetic materials, vol. 1. North Holland Publishing Co,
Amsterdam (1980) (Ed. E.P. Wohlfarth)
101. Wang, W.: A high precision micropositioner based on magnetostriction principle.
Rev. Sci. inst.
63
, 249-254 (1992)
102. Fukuda, T.: GMA applications to micromobile robot as microactuator without
power supply cables. IEEE Micro-electro-mechanical Systems Proc., pp. 210-215
(1991)
103. Clark, A., Wun-Fogle, M., Restorff, J., Lograsso, T.: Magnetostrictive properties
of galfenol alloys under compressive stress. Mater. Trans.
43
(5), 881-886 (2002)
104. Weng, L., Wang, B., Dapino, M., Sun, Y., Wang, L., Cui, B.: Relationships
between magnetization and dynamic stress for Galfenol rod alloy and its applica-
tion in force sensor. J. Appl. Phys.
113
(7), 17A917 (2013)
105. Song, O., Bllentine, C.A., O'Handley, R.: Giant surface magnetostriction in poly-
crystalline Ni and NiFe films. Appl. Phys. Lett.
64
(19), 2593-2595 (1994)
106. Koch, R., Hu, D., Das, A.: Compressive stress in polycrystalline volmer-weber
films. Phys. Rev. Lett.
94
(14), 146101 (2005)
107. Magni, A., Celegato, F., Coisson, M., Olivetti, E., Pasquale, M., Sasso, C.: Magne-
tization properties of FeTb thin films. IEEE Trans. Magn.
46
(2), 487-490 (2010)
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