Patent application number | Description | Published |
20090236219 | MAGNETRON UNIT, MAGNETRON SPUTTERING APPARATUS, AND METHOD OF MANUFACTURING ELECTRONIC DEVICE - A magnetron unit includes a plurality of first magnet elements each including first magnets which have the same polarity and are provided on two end portions of a yoke plate made of a magnetic material and a second magnet which has a polarity different from that of the first magnets and is provided on a middle portion of the yoke plate, a base plate on which a moving unit is placed to make each of the plurality of first magnet elements move in one direction, and a second magnet element which includes yoke plates made of a magnetic material and fixed to two end portions respectively, of the base plate, a magnet which has the same polarity as that of the second magnet and is placed on the yoke plate and a magnet which has the same polarity as that of the first magnet and is placed on the magnet. | 09-24-2009 |
20110155569 | COOLING SYSTEM - A cooling system that cools a wafer in a vacuum chamber of a sputtering apparatus, includes a wafer cooling stage for cooling the wafer, a cooling mechanism for cooling the wafer cooling stage, cooling gas supply units which introduces a cooling gas to the wafer cooling stage, a wafer rotating mechanism which holds the wafer in a state separated from the wafer cooling stage by a predetermined gap, and is rotated while holding the wafer, and a driving mechanism which rotates the wafer rotating mechanism at a predetermined rotational speed. | 06-30-2011 |
20110180401 | MAGNET UNIT AND MAGNETRON SPUTTERING APPARATUS - The present invention provides a magnet unit, which can realize uniform film thickness distribution of a thin film formed on a substrate without increasing the length and width of a target. | 07-28-2011 |
20120070693 | MAGNETIC SENSOR STACK BODY, METHOD OF FORMING THE SAME, FILM FORMATION CONTROL PROGRAM, AND RECORDING MEDIUM - The present invention is directed to align crystal c-axes in magnetic layers near two opposed junction wall surfaces of a magnetoresistive element so as to be almost perpendicular to the junction wall surfaces. A magnetic sensor stack body has, on sides of opposed junction wall surfaces of a magnetoresistive element, field regions for applying a bias magnetic field to the element. The field region has first and second magnetic layers having magnetic particles having crystal c-axes, the first magnetic layer is disposed adjacent to the junction wall surface in the field region, the crystal c-axes in the first magnetic layer are aligned and oriented along an ABS in a film plane, the second magnetic layer is disposed adjacent to the first magnetic layer in the field region, and the crystal c-axis directions in the second magnetic layer are distributed at random in a plane. | 03-22-2012 |
20120160672 | SPUTTERING APPARATUS - A sputtering apparatus includes a target electrode capable of mounting a target, a first support member which supports the target electrode, a magnet unit which forms a magnetic field on a surface of the target, a second support member which supports the magnet unit, and a force generation portion which is provided between the first support member and the second support member, and generates a second force in a direction opposite to a first force that acts on the second support member by an action of the magnetic field formed between the target and the magnet unit, wherein the second force has a magnitude which increases as the magnet unit comes closer to the target electrode. | 06-28-2012 |
20120160673 | MAGNET UNIT AND MAGNETRON SPUTTERING APPARATUS - A magnet unit has a first magnet element and a second magnet element. The first magnet element includes a first magnet which is provided to stand upright on a yoke plate, a second magnet which is provided to stand upright on the yoke plate and has a magnetic pole unlike the first magnet, and a third magnet which is provided with a tilt between the first magnet and the second magnet. The second magnet element includes a fourth magnet which is provided to stand upright on the yoke plate, a fifth magnet which is arranged to stand upright on the yoke plate and has a magnetic pole unlike the fourth magnet, and a sixth magnet which is provided with a tilt between the fourth magnet and the fifth magnet. The first magnet element and the second magnet element are alternately arranged in an endless shape. | 06-28-2012 |
20120193216 | SUBSTRATE COOLING DEVICE, SPUTTERING APPARATUS AND METHOD FOR MANUFACTURING ELECTRONIC DEVICE - A substrate cooling device includes: a substrate holding stage including a recess defining a space between a substrate mounting unit and a substrate mounted on the substrate mounting unit; a holding member that exerts a pressing force against the substrate holding stage so as to fix the substrate to the substrate holding stage; a refrigerator connected to the substrate holding stage; a coolant gas inlet path including a coolant gas inlet opening that is provided at the substrate holding stage and opens to a recessed face of the recess, the coolant gas inlet path connecting a space in the recess via the coolant gas inlet opening to a coolant gas supply; and a coolant gas outlet path including a coolant gas outlet opening that is provided at the substrate holding stage independently of the coolant gas inlet opening and opens to the recessed face of the recess. | 08-02-2012 |