Future needs in high density magnetic storage devices require increases both in linear and track ... more Future needs in high density magnetic storage devices require increases both in linear and track densities. The latest 1 Gigabit per square inch areal density for longitudinal media demonstrated by IBM1 has reduced the bit size to dimensions comparable to the characteristic micromagnetic length scales of todays media. Improvement or extension of the current recording limits requires detailed knowledge of micromagnetics and their manipulation or tailoring through the microstructure of the utilized magnetic thin films.
Proceedings ... annual meeting, Electron Microscopy Society of America, Sep 1, 1968
Pre-thinned high purity tantalum sheet was oxidized in high purity oxygen at 500°C in an ultra hi... more Pre-thinned high purity tantalum sheet was oxidized in high purity oxygen at 500°C in an ultra high vacuum reactor vessel at pressures of 10 to 100 microns for 30 to 90 minutes. Transmission electron microscopy revealed changes in the microstructure as the oxidation progressed and electron diffraction showed many different sub-oxide phases and marked ordering effects.For the lowest oxygen exposure, 10 microns for 30 minutes, a microstructure showing both large and small domains was found, Figure 1. As can be seen the size and shape of the domains varied considerably. The long narrow domains are near the edge of the foil and all have boundaries along ﹛100﹜ In intermediate regions, about one micron in from the edge, the domains have a peculiar “air plane” shape with boundaries along both ﹛100﹜ and ﹛110﹜ and “wings” adjacent to the ﹛100﹜ boundary. Interspaced among the airplane shaped domains and in regions up to 3 microns from the edge are very small, interconnected nuclei.
High resolution images of laser-written magnetic domains in thin sputtered films of terbium iron ... more High resolution images of laser-written magnetic domains in thin sputtered films of terbium iron have been obtained using Lorentz microscopy. The domains, written with a GaAs diode laser, are generally circular in shape with diameters in the range 0.9–2.2 μm. Conditions necessary for the observation of highly detailed images are described. It was found that with certain values of laser power and applied magnetic field, smaller irregular domains appear within the principal domains.
Future needs in high density magnetic storage devices require increases both in linear and track ... more Future needs in high density magnetic storage devices require increases both in linear and track densities. The latest 1 Gigabit per square inch areal density for longitudinal media demonstrated by IBM1 has reduced the bit size to dimensions comparable to the characteristic micromagnetic length scales of todays media. Improvement or extension of the current recording limits requires detailed knowledge of micromagnetics and their manipulation or tailoring through the microstructure of the utilized magnetic thin films.
Proceedings ... annual meeting, Electron Microscopy Society of America, Sep 1, 1968
Pre-thinned high purity tantalum sheet was oxidized in high purity oxygen at 500°C in an ultra hi... more Pre-thinned high purity tantalum sheet was oxidized in high purity oxygen at 500°C in an ultra high vacuum reactor vessel at pressures of 10 to 100 microns for 30 to 90 minutes. Transmission electron microscopy revealed changes in the microstructure as the oxidation progressed and electron diffraction showed many different sub-oxide phases and marked ordering effects.For the lowest oxygen exposure, 10 microns for 30 minutes, a microstructure showing both large and small domains was found, Figure 1. As can be seen the size and shape of the domains varied considerably. The long narrow domains are near the edge of the foil and all have boundaries along ﹛100﹜ In intermediate regions, about one micron in from the edge, the domains have a peculiar “air plane” shape with boundaries along both ﹛100﹜ and ﹛110﹜ and “wings” adjacent to the ﹛100﹜ boundary. Interspaced among the airplane shaped domains and in regions up to 3 microns from the edge are very small, interconnected nuclei.
High resolution images of laser-written magnetic domains in thin sputtered films of terbium iron ... more High resolution images of laser-written magnetic domains in thin sputtered films of terbium iron have been obtained using Lorentz microscopy. The domains, written with a GaAs diode laser, are generally circular in shape with diameters in the range 0.9–2.2 μm. Conditions necessary for the observation of highly detailed images are described. It was found that with certain values of laser power and applied magnetic field, smaller irregular domains appear within the principal domains.
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