Abstract: A polishing apparatus includes a polishing table for supporting a polishing pad and a substrate holding device for pressing a substrate against the polishing pad. The substrate holding device includes an elastic film to form multiple pressure chambers to press the substrate, and a pressure control unit controlling pressure of the pressure chambers. The pressure control unit includes a first flow path connected to a first pressure chamber, and first and second pressure regulation mechanisms. The pressure control unit performs switching control from first pressure regulation mechanism to second pressure regulation mechanism when a set pressure within first pressure chamber reaches a first threshold value. Then, the pressure control unit performs switching control from second pressure regulation mechanism to first pressure regulation mechanism when the set pressure within the first pressure chamber reaches a second threshold value lower than the first threshold value.

Abstract: A polishing object is prevented from slipping out without depending on the process type or the polishing condition.

Abstract: A local polishing system comprises: a particle estimation unit (30) for estimating the film thickness distribution of a wafer; a local polishing region setting unit (11) for setting a local polishing region on the wafer based on the film thickness distribution; a polishing head selection unit (12) for selecting a polishing head based on the size of the local polishing region; a model storage (20) holding a recipe generating model that defines the relation between an input node and an output node, the input node being an attribute of the local polishing region, the output node comprising a recipe for a polishing process; a polishing recipe generator (13) that puts an attribute of the local polishing region set by the local polishing region setting unit (11) into the input node of the recipe generating model and determines a polishing recipe for polishing the local polishing region; and a polishing recipe transmitter (15) for transmitting data of the polishing recipe to a local polishing module (200) that perfo

Abstract: A polishing apparatus has a polishing pad, a top ring for holding a semiconductor wafer, and a vertical movement mechanism operable to move the top ring in a vertical direction. The polishing apparatus also has a distance measuring sensor operable to detect a position of the top ring when a lower surface of the top ring is brought into contact with the polishing pad, and a controller operable to calculate an optimal position of the top ring to polish the semiconductor wafer based on the position detected by the distance measuring sensor. The vertical movement mechanism includes a ball screw mechanism operable to move the top ring to the optimal position.

Abstract: A polishing apparatus has a polishing pad, a top ring for holding a semiconductor wafer, and a vertical movement mechanism operable to move the top ring in a vertical direction. The polishing apparatus also has a distance measuring sensor operable to detect a position of the top ring when a lower surface of the top ring is brought into contact with the polishing pad, and a controller operable to calculate an optimal position of the top ring to polish the semiconductor wafer based on the position detected by the distance measuring sensor. The vertical movement mechanism includes a ball screw mechanism operable to move the top ring to the optimal position.

Abstract: An elastic membrane capable of precisely controlling a polishing profile in a narrow area of a wafer edge portion is disclosed. The elastic membrane includes a contact portion to be brought into contact with a substrate; a first edge circumferential wall extending upwardly from a peripheral edge of the contact portion; and a second edge circumferential wall having a horizontal portion connected to an inner circumferential surface of the first edge circumferential wall. The inner circumferential surface of the first edge circumferential wall includes an upper inner circumferential surface and a lower inner circumferential surface, both of which are perpendicular to the contact portion. The upper inner circumferential surface extends upwardly from the horizontal portion of the second edge circumferential wall, and the lower inner circumferential surface extends downwardly from the horizontal portion.

Abstract: A polishing apparatus which can allow easy replacement of a retainer ring and can allow the retainer ring to be secured to a drive ring without causing deformation of the retainer ring is disclosed. The polishing head includes a head body having a substrate contact surface, a drive ring coupled to the head body, and a retainer ring surrounding the substrate contact surface and coupled to the drive ring. A first screw thread is formed on the drive ring, a second screw thread, which engages with the first screw thread, is formed on the retainer ring. The second screw thread extends in a circumferential direction of the retainer ring.

Abstract: A polisher for locally polishing a substrate is provided. The polisher includes a polishing member having a processing surface that comes into contact with the substrate and is smaller than the substrate, a pressing mechanism for pressing the polishing member against the substrate, a first drive mechanism for imparting motion to the polishing member in a first motion direction parallel to a surface of the substrate, a second drive mechanism for imparting motion to the polishing member in a second motion direction perpendicular to the first motion direction and having a component parallel to the surface of the substrate, and a controller for controlling the action of the polisher.

Abstract: A polishing apparatus has a polishing pad, a top ring for holding a semiconductor wafer, and a vertical movement mechanism operable to move the top ring in a vertical direction. The polishing apparatus also has a distance measuring sensor operable to detect a position of the top ring when a lower surface of the top ring is brought into contact with the polishing pad, and a controller operable to calculate an optimal position of the top ring to polish the semiconductor wafer based on the position detected by the distance measuring sensor. The vertical movement mechanism includes a ball screw mechanism operable to move the top ring to the optimal position.

Abstract: A polishing apparatus which can allow easy replacement of a retainer ring and can allow the retainer ring to be secured to a drive ring without causing deformation of the retainer ring is disclosed. The polishing head includes a head body having a substrate contact surface, a drive ring coupled to the head body, and a retainer ring surrounding the substrate contact surface and coupled to the drive ring. A first screw thread is formed on the drive ring, a second screw thread, which engages with the first screw thread, is formed on the retainer ring. The second screw thread extends in a circumferential direction of the retainer ring.

Abstract: A polishing device is provided to suppress deterioration in reproducibility of a polishing profile due to a variation or change with time of a shape of a retaining ring of a substrate holding member for each of retaining rings. The polishing device includes: a polishing head configured to press a substrate against a polishing pad and have a retainer ring surrounding the substrate pressed against the polishing pad; a measurement sensor configured to measure a surface shape of the retainer ring; and a controller configured to determine a polishing condition of the substrate based on the surface shape of the retainer ring measured by the measurement sensor.

Abstract: An elastic membrane is used in a substrate holding apparatus for holding a substrate such as a semiconductor wafer and pressing the substrate against a polishing surface. The elastic membrane includes a plurality of concentrically circumferential walls configured to define a plurality of pressurizing areas for pressing the substrate. The pressurizing areas includes a central pressurizing area located at a central part of the elastic membrane, an annular edge pressurizing area located at the outermost part of the elastic membrane, and a plurality of intermediate pressurizing areas located between the central pressurizing area and the annular edge pressurizing area. The area width of at least one of the intermediate pressurizing areas is set in a range to allow a polishing rate responsive width not to vary even when the area width is varied.

Abstract: A substrate holder capable of preventing an increase in a polishing rate of an edge portion of a substrate, even when polishing a plurality of substrates successively, is disclosed. The substrate holder includes: a top ring body configured to hold the substrate; and a retaining ring disposed so as to surround the substrate held by the top ring body. The retaining ring includes a pad pressing structure in an annular shape which is to be brought into contact with the polishing pad, and the pad pressing structure has a width in a range of 3 mm to 7.5 mm.

Abstract: According to one embodiment, a substrate polishing method includes: conveying a substrate to a position above a polishing pad by sucking the substrate by a first region of an elastic film; polishing the substrate while bringing the substrate into contact with the polishing pad; and lifting off the substrate by sucking the substrate by a second region of the elastic film, the second region being larger than the first region.

Abstract: One object is to provide a polishing machine and a polishing method capable of improving a processing accuracy on the surface of an object. A method of polishing an object is provided. Such a method comprises: a first step of polishing an object by moving the object and a first polishing pad having a smaller dimension than that of the object relative to each other while the first polishing pad is made to contact the object, a second step of polishing the object, after the first step of polishing, by moving the object and a second polishing pad having a larger dimension than that of the object relative to each other while the second polishing pad is made to contact the object, and a step of detecting the state of the surface of the object before the first step of polishing.

Abstract: A polishing apparatus has a polishing pad, a top ring for holding a semiconductor wafer, and a vertical movement mechanism operable to move the top ring in a vertical direction. The polishing apparatus also has a distance measuring sensor operable to detect a position of the top ring when a lower surface of the top ring is brought into contact with the polishing pad, and a controller operable to calculate an optimal position of the top ring to polish the semiconductor wafer based on the position detected by the distance measuring sensor. The vertical movement mechanism includes a ball screw mechanism operable to move the top ring to the optimal position.