Your search keyword '"Santos, Tiffany"' showing total 3 results

1. Nanometer-scale striped surface terminations on fractured SrTiO(3) surfaces.

Author

Guisinger NP, Santos TS, Guest JR, Chien TY, Bhattacharya A, Freeland JW, and Bode M

Subjects

Hardness, Macromolecular Substances chemistry, Materials Testing, Molecular Conformation, Particle Size, Stress, Mechanical, Surface Properties, Crystallization methods, Nanostructures chemistry, Nanostructures ultrastructure, Nanotechnology methods, Oxides chemistry, Strontium chemistry, Titanium chemistry

Abstract

Using cross-sectional scanning tunneling microscopy on in situ fractured SrTiO(3), one of the most commonly used substrates for the growth of complex oxide thin films and superlattices, atomically smooth terraces have been observed on (001) surfaces. Furthermore, it was discovered that fracturing this material at room temperature results in the formation of stripe patterned domains having characteristic widths ( approximately 10 to approximately 20 nm) of alternating surface terminations that extend over a long range. Spatial characterization utilizing spectroscopy techniques revealed a strong contrast in the electronic structure of the two domains. Combining these results with topographic data, we are able to assign both TiO(2) and SrO terminations to their respective domains. The results of this experiment reveal that fracturing this material leads to reproducibly flat surfaces that can be characterized at the atomic-scale and suggest that this technique can be utilized for the study of technologically relevant complex oxide interfaces.

Published

2009

2. L10 Fe Pt X- Y media for heat-assisted magnetic recording.

Author

Weller, Dieter, Mosendz, Oleksandr, Parker, Gregory, Pisana, Simone, and Santos, Tiffany S.

Subjects

MAGNETIC recording media, MAGNETIC anisotropy, NANOSTRUCTURES, MATERIALS science, SOLID state physics

Abstract

Highly chemically ordered L10 FePtX-Y nano-granular films with high perpendicular magnetic anisotropy are key media approaches for future heat-assisted magnetic recording (HAMR). They are sputtered at elevated temperature on glass disks coated with adhesion, heat sink, and texturing layers. Adding X = Ag reduces the required deposition temperature and X = Cu lowers the Curie temperature. Current seed layers are NiTa for adhesion and heat sink and well-oriented MgO (002) layers for highly textured FePtX(002) grains surrounded by Y = carbon and/or other segregants. Magnetic anisotropies larger than 4.5 × 107 erg cm−3 and coercivities beyond 5 Tesla have been achieved. The combination of thermal conductivity and Curie temperature determines the required laser power during recording. Key goals are to optimize media, heads, head-disk-spacing, and read-back channels to extend the areal density to 1.5-5 Tb in−2. Head and media in heat-assisted magnetic recording1. LD, laser diode; TFC, thermal fluctuation control; NFT, near field transducer. 1Lidu Huang et al., 'HAMR Thermal Modeling Including Media Hot Spot', APMRC 2012. [ABSTRACT FROM AUTHOR]

Published

2013

3. Ultrathin BaTiO3 templates for multiferroic nanostructures.

Author

Xumin Chen, Seolun Yang, Ji-Hyun Kim, Hyung-Do Kim, Jae-Sung Kim, Rojas, Geoffrey, Skomski, Ralph, Haidong Lu, Bhattacharya, Anand, Santos, Tiffany, Guisinger, Nathan, Bode, Matthias, Gruverman, Alexei, and Enders, Axel

Subjects

NANOSTRUCTURES, DIELECTRICS, MOLECULAR beam epitaxy, CRYSTAL structure, HETEROSTRUCTURES

Abstract

The structural, electronic and dielectric properties of high-quality ultrathin BaTiO3 films were investigated. The films, which were grown by ozone-assisted molecular beam epitaxy on Nb-doped SrTiO3(001) substrates and have thicknesses as low as 8 unit cells (u.c.) (3.2 nm), are unreconstructed and atomically smooth with large crystalline terraces. A strain-driven transition to three-dimensional (3D) island formation is observed for films of 13 u.c. thickness (5.2 nm). The high structural quality of the surfaces, together with dielectric properties similar to bulk BaTiO3 and dominantly TiO2 surface termination, makes these films suitable templates for the synthesis of high-quality metaloxide multiferroic heterostructures for the fundamental study and exploitation of magneto-electric effects, such as a recently proposed interface effect in Fe/BaTiO3 heterostructures based on Fe-Ti interface bonds. [ABSTRACT FROM AUTHOR]

Published

2011