02071nas a2200241 4500008004100000022001400041245012100055210006900176260007300245300001200318490000800330520118300338653001801521653002101539653001501560653000901575100002101584700002001605700002501625700002101650700003301671856012501704 2008 eng d a0304-885300aEnhanced shape anisotropy and magneto-optical birefringence by high energy ball milling in NixFe1-xFe2O4 ferrofluids0 aEnhanced shape anisotropy and magnetooptical birefringence by hi aPO BOX 211, 1000 AE AMSTERDAM, NETHERLANDSbELSEVIER SCIENCE BVcMAR a815-8200 v3203 a
Ferrofluids belonging to the series NixFe1-xFe2O4 were synthesised by two different procedures-one by standard co-precipitation techniques, the other by co-precipitation for synthesis of particles and dispersion aided by high-energy ball milling with a view to understand the effect of strain and size anisotropy on the magneto-optical properties of ferrofluids. The birefringence measurements were carried out using a standard ellipsometer. The birefringence signal obtained for chemically synthesised samples was satisfactorily fitted to the standard second Langevin function. The ball-milled ferrofluids showed a deviation and their birefringence was enhanced by an order. This large enhancement in the birefringence value cannot be attributed to the increase in grain size of the samples, considering that the grain sizes of sample synthesised by both modes are comparable; instead, it can be attributed to the lattice strain-induced shape anisotropy(oblation) arising from the high-energy ball-milling process. Thus magnetic-optical (MO) signals can be tuned by ball-milling process, which can find potential applications. (C) 2007 Elsevier B.V. All rights reserved.
10abirefringence10aCo-precipitation10aferrofluid10aHEBM1 aNair, Swapna, S.1 aXavier, Francis1 aJoy, Pattayil, Alias1 aKulkarni, S., D.1 aAnantharaman, Maliemadom, R. uhttp://library.ncl.res.in/content/enhanced-shape-anisotropy-and-magneto-optical-birefringence-high-energy-ball-milling-0