Abstract: A substrate having a surface coated with a piezoelectric coating I, the coating including A-xMexN, wherein A is at least one of B, Al, Ga, In, Tl, and Me is at least one metallic element Me from the transition metal groups 3b, 4b, 5b 6b the lanthanides, and Mg the coating I having a thickness d, and further including a transition layer wherein the ratio of atomic percentage of Me to atomic percentage of Al steadily rises along a thickness extent ?3 of said coating for which there is valid: ?3?d.

Abstract: A bracket for removable attachment to a round rim of an aquarium allows for secure and stable attachment of an aquarium filter to an aquarium having a round opening. The bracket has a first piece for removable attachment to the round rim and has a pair of lips sized to hold the round rim. The bracket also includes a second piece with a flexible clip removably attached to the first piece.

Abstract: For vacuum treatment of workpieces by a multitude of distinct processing stations (P11-P1n, P21-P2m) the processing stations are grouped in two groups (I and II). The workpieces are handled towards and from the processing stations of the first group (I) simultaneously, whereat the workpieces are treated by the processing stations of the second group (II) in a selectable individual sequence.

Abstract: A method for depositing an aluminium nitride layer on a substrate is provided that comprises: providing a silicon substrate; placing the substrate in a vacuum chamber; conditioning a surface of the substrate by etching and providing a conditioned surface; depositing an aluminum film onto the conditioned surface of the substrate by a sputtering method under an atmosphere of Argon and depositing an epitaxial aluminium nitride layer on the aluminum film by a sputtering method under an atmosphere of Nitrogen and Argon.

Abstract: A method for depositing an aluminium nitride layer on a substrate is provided that comprises: providing a silicon substrate; placing the substrate in a vacuum chamber; conditioning a surface of the substrate by etching and providing a conditioned surface; depositing an aluminium film onto the conditioned surface of the substrate by a sputtering method under an atmosphere of Argon and depositing an epitaxial aluminium nitride layer on the aluminium film by a sputtering method under an atmosphere of Nitrogen and Argon.

Abstract: For vacuum treatment of workpieces by a multitude of distinct processing stations (P11-P1n, P21-P2m) the processing stations are grouped in two groups (I and II). The workpieces are handled towards and from the processing stations of the first group (I) simultaneously, whereat the workpieces are treated by the processing stations of the second group (II) in a selectable individual sequence.

Abstract: For vacuum treatment of workpieces by a multitude of distinct processing stations (P11-P1n, P21-P2m) the processing stations are grouped in two groups (I and II). The workpieces are handled towards and from the processing stations of the first group (I) simultaneously, whereat the workpieces are treated by the processing stations of the second group (II) in a selectable individual sequence.

Abstract: A method for dispensing a viscous liquid onto a rotating, disk-shaped substrate comprises the steps of Positioning the tip of a nozzle for dispensing said viscous liquid at a first distance relative to a surface of said substrate during start of the dispensing, thereby allowing the viscous liquid (4) to make a controlled first contact with the substrate. Then the gap between said nozzle and the surface of said substrate is increased to a second distance during dispensing. Accordingly, an apparatus for dispensing a viscous liquid comprises a nozzle with a tip for dispensing said viscous liquid and means for changing the distance between said nozzle and the surface of said substrate.

Abstract: A perpendicular magnetic recording disk has a soft magnetic underlayer (SUL) that has high corrosion resistance as well as high moment. The material of the SUL is an alloy comprising Co, Fe, X, and Y; where X is Ta or Nb, Y is Zr or Hf, and the combined amount of X and Y present in the alloy is between about 10 and 20 atomic percent. The atomic ratio of Co to Fe in the alloy is between about 90:10 to 10:90, preferably between about 25:75 and 35:65. The SUL may be a single-layer SUL or a multilayer SUL formed of multiple soft magnetic layers separated by an interlayer film or films.

Abstract: For vacuum treatment of workpieces by a multitude of distinct processing stations (P11-P1n, P21-P2m) the processing stations are grouped in two groups (I and II). The workpieces are handled towards and from the processing stations of the first group (I) simultaneously, whereat the workpieces are treated by the processing stations of the second group (II) in a selectable individual sequence.

Abstract: A perpendicular magnetic recording disk has a soft magnetic underlayer (SUL) that has high corrosion resistance as well as high moment. The material of the SUL is an alloy comprising Co, Fe, X, and Y; where X is Ta or Nb, Y is Zr or Hf, and the combined amount of X and Y present in the alloy is between about 10 and 20 atomic percent. The atomic ratio of Co to Fe in the alloy is between about 90:10 to 10:90, preferably between about 25:75 and 35:65. The SUL may be a single-layer SUL or a multilayer SUL formed of multiple soft magnetic layers separated by an interlayer film or films.

Abstract: A method for separating bonded substrates and a respective apparatus used for that method is disclosed. The method comprises positioning the bonded substrates (1) in an evacuable chamber (2) by respective means, detaching a space (10) from that evacuable chamber by means of a sealing arrangement (4) so that said space comprises a partial area of the substrates with at least one gap (5) between the bonded substrates (1), lowering the pressure in the vacuum chamber (2) while maintaining the pressure in the space (10), thereby causing the bonded substrates to separate.

Abstract: A perpendicular magnetic recording disk has a granular Co-based ferromagnetic alloy recording layer (RL) with oxides of a selected metal (Ta or Nb) and a reduced-thickness exchange-break layer (EBL) between the RL and the soft magnetic underlayer (SUL). A perpendicular magnetic recording system that includes the disk, the write head and the read head, has an improved ability to write to the RL because of the reduced-thickness EBL.

Abstract: A perpendicular magnetic recording disk has an improved recording layer of a granular CoPtCr-based ferromagnetic alloy with inter-granular material made up of one or more oxides of Cr and one or more oxides of one or more of a segregant of Si, Ta, Ti, B, Nb or Hf, wherein the amount of oxygen present in the recording layer is greater than about 22 atomic percent and less than about 35 atomic percent. The amount of oxygen in the recording layer is substantially greater than the amount required for the stoichiometric oxide or oxides of the segregant or segregants, and a substantial portion of the oxygen present in the recording layer is present in the inter-granular material. The recording layer exhibits high signal-to-noise ratio (SNR), a coercivity Hc greater than about 5000 Oe and a nucleation field Hn greater (more negative) than about ?1500 Oe.

Abstract: A method for manufacturing a storage media comprises the steps of providing two essentially disk-shaped, flat, circular substrate with a first information layer, bonding said substrates together using an adhesive and separating said two bonded substrates again such that at least the adhesive remains with the second substrate. During said separation process the separation force is being measured. A respective apparatus comprises a holding or clamping means (5) for one side of said bonded substrates (3, 5); a fastener (6) for the other side of the bonded substrates; force exerting means via such fastener (6) on said other side of the bonded substrates; and a force measurement device (2) for measuring the separation force acting on the bonded substrates.

Abstract: A perpendicular magnetic recording medium including improvements to the recording layer (RL), exchange break layer (EBL), soft underlayer (SUL), overcoat (OC), adhesion layer (AL) and the combination of the layers. Advances in the RL include a cap layer. Improvements in the EBL include a multiple layer EBL.

Abstract: A method for bonding of disk shaped substrates comprises the steps of providing a first and a second substrate, applying a liquid adhesive to a first bonding surface and a second surface, irradiating the lacquered surface of at least one of the substrates with UV light for increasing the viscosity of the lacquer, joining the substrates in vacuum, irradiating the joined disk with UV light for increasing the viscosity of the lacquer in between the joined disks, placing the disk onto a rotatable chuck, rotating the disc with a rotation speed preferably >500rpm, and finally separating the 2 substrates to leave the full bonding layer on one of the substrates.

Abstract: It is shown a method and apparatus for distributing a viscous liquid over a surface of a substrate with high homogeneity in a defined area, e. g. on a semiconductor wafer or a data storage media, by conditioning the liquid on the substrate thermally in a first step and exposing it to UV radiation in two further steps, locally specific before or during the spin coating process.

Abstract: A perpendicular magnetic recording disk has a soft magnetic underlayer (SUL) that has high corrosion resistance as well as high moment. The material of the SUL is an alloy comprising Co, Fe, X, and Y; where X is Ta or Nb, Y is Zr or Hf, and the combined amount of X and Y present in the alloy is between about 10 and 20 atomic percent. The atomic ratio of Co to Fe in the alloy is between about 90:10 to 10:90, preferably between about 25:75 and 35:65. The SUL may be a single-layer SUL or a multilayer SUL formed of multiple soft magnetic layers separated by an interlayer film or films.

Abstract: A perpendicular magnetic recording disk has a granular Co-based ferromagnetic alloy recording layer (RL) with oxides of a selected metal (Ta or Nb) and a reduced-thickness exchange-break layer (EBL) between the RL and the soft magnetic underlayer (SUL). A perpendicular magnetic recording system that includes the disk, the write head and the read head, has an improved ability to write to the RL because of the reduced-thickness EBL.