High-resolution sensitive magneto-optic ferrite-garnet films with planar anisotropy

“…The normal component of the magnetic flux density B z (x,y) of the films is determined using an iron garnet indicator layer 10 as a field sensing element. The measured light intensity distribution is converted to a magnetic flux density distribution by applying a non-linear calibration function 11 , taking the intrinsic properties of the iron garnet into account.…”

Flux line lattice structure and behavior in antiphase boundary free vicinal YBa2Cu3O7−δ thin films

“…The normal component of the magnetic flux density B z (x,y) of the films is determined using an iron garnet indicator layer 10 as a field sensing element. The measured light intensity distribution is converted to a magnetic flux density distribution by applying a non-linear calibration function 11 , taking the intrinsic properties of the iron garnet into account.…”

Flux line lattice structure and behavior in antiphase boundary free vicinal YBa2Cu3O7−δ thin films

“…quasi-isotropic epitaxial ferritegarnet films with a mirror sublayer, for these purposes. 7 These indicator films ensure visualisation of the microfields of the scattering of the examined objects as a result Downloaded by [Queensland University of Technology] at 03:59 02 November 2014…”

Computer methods of structural analysis

“…The main advantage of these films is the wide working temperature range (up to 400-600 K), while the fairly low saturation fields (up to 300 mT) is a disadvantage. Usually the Bi-YIG films are made with liquid phase epitaxy, and the films are 2-8 mm thick, which limits the spatial resolution typically to a few micrometers [1], although there are reports of higher spatial resolution (up to 0:4 mm) [5]. One of the problems in MO-microscopy are the zig-zag patterns due to the magnetic domain structure of the MO-film [1].…”

BixY3−xFe5O12 thin films prepared by laser ablation for magneto-optical imaging of superconducting thin films