Title :
UHV-preparation and in situ characterization of magneto-optical thin films
Author :
Weller, D. ; Schrijner, P. ; Reim, W.
Author_Institution :
Res. Labs., Siemens AG, Erlangen, West Germany
fDate :
3/1/1988 12:00:00 AM
Abstract :
Rare-earth transition metal films of thickness d approximately=100 nm have been prepared by ion-beam sputtering in ultrahigh vacuum. 99.99%-pure alloys, e.g. Tb22Fe78 or elements like Nd, Gd, Tb, and Fe or Co are used as target materials. Sputtering sources are either cold-cathode sources (1 mA/cm2) or focused two-grid hot-filament sources (10 mA/cm2) of the Kaufmann type, yielding sputtering rates of up to 5 AA/s. Film growth is controlled in situ by a magnetooptical technique that provides information on the reflectivity and the Kerr rotation angle as a function of film thickness. Directly after deposition the samples are transferred to an interconnected analysis chamber, where composition and cleanliness of films as well as targets are checked using X-ray photoemission spectroscopy.
Keywords :
Kerr magneto-optical effect; X-ray photoelectron spectra; cobalt alloys; gadolinium alloys; iron alloys; magnetic thin films; neodymium alloys; reflectivity; sputter deposition; sputtered coatings; terbium alloys; vacuum deposited coatings; vacuum deposition; Gd-Co; Gd-Fe; Kerr rotation angle; Nd-Co; Nd-Fe; Tb-Co; Tb-Fe; UHV-preparation; X-ray photoemission spectroscopy; cleanliness; cold-cathode sources; composition; film thickness dependence; focused two-grid hot-filament sources; in situ characterization; ion-beam sputtering; magneto-optical thin films; rare earth-transition metal films; reflectivity; sputtering rates; target materials; ultrahigh vacuum; Iron; Magnetic analysis; Magnetic materials; Neodymium; Optical films; Photoelectricity; Reflectivity; Sputtering; Thickness control; Transistors;
Journal_Title :
Magnetics, IEEE Transactions on
