Abstract: The present invention relates to a polishing method and a polishing apparatus for polishing a substrate such as a wafer while measuring a film thickness based on optical information included in reflected light from the substrate.

Abstract: An apparatus for polishing a substrate includes a rotatable polishing table supporting a polishing pad, a substrate holder configured to hold the substrate and press the substrate against a polishing surface of the polishing pad on the rotating polishing table so as to polish the substrate, and a pad-temperature detector configured to measure a temperature of the polishing surface of the polishing pad. The apparatus also includes a pad-temperature regulator configured to contact the polishing surface to regulate the temperature of the polishing surface, and a temperature controller configured to control the temperature of the polishing surface by controlling the pad-temperature regulator based on information on the temperature of the polishing surface detected by the pad-temperature detector.

Abstract: A polishing apparatus which can measure a film thickness with high accuracy without affecting a polishing rate of a wafer is disclosed. The polishing apparatus includes: a polishing head configured to press a wafer against a polishing pad; an illuminating fiber having a distal end disposed in a flow passage formed in the polishing table; a spectrometer configured to resolve reflected light from the wafer in accordance with wavelength and measure an intensity of the reflected light at each of wavelengths; a light-receiving fiber having a distal end disposed in the flow passage; a liquid supply line communicating with the flow passage; a gas supply line communicating with the flow passage; a liquid supply valve attached to the liquid supply line; a gas supply valve attached to the gas supply line; and an operation controller configured to control operations of the liquid supply valve and the gas supply valve.

Abstract: A polishing method capable of obtaining a stable film thickness without being affected by a difference in measurement position is disclosed. The polishing method includes: rotating a polishing table that supports a polishing pad; pressing the surface of the wafer against the polishing pad; obtaining a plurality of film-thickness signals from a film thickness sensor during a latest predetermined number of revolutions of the polishing pad, the film thickness sensor being installed in the polishing table; determining a plurality of measured film thicknesses from the plurality of film-thickness signals; determining an estimated film thickness at a topmost portion of the raised portion based on the plurality of measured film thicknesses; and monitoring polishing of the wafer based on the estimated film thickness at the topmost portion of the raised portion.

Abstract: The invention performs optimum processing even when process requirements vary in the middle of a substrate processing process. A method is provided whereby a substrate is processed by causing the substrate and a catalyst to contact each other in the presence of a processing liquid. Such a method includes a step of processing the substrate under a predetermined processing condition for processing the substrate at a high speed and a step of changing the processing condition so as to process the substrate at a low speed during processing of the same substrate.

Abstract: A polishing apparatus capable of achieving a highly-precise polishing result is disclosed. The polishing apparatus includes an in-line film-thickness measuring device configured to measure a film thickness of the substrate in a stationary state, and an in-situ spectral film-thickness monitor having a film thickness sensor disposed in a polishing table, the in-situ spectral film-thickness monitor being configured to subtract an initial film thickness, measured by the in-situ spectral film-thickness monitor before polishing of the substrate, from an initial film thickness, measured by the in-line film-thickness measuring device before polishing of the substrate, to determine a correction value, add the correction value to a film thickness that is measured when the substrate is being polished to obtain a monitoring film thickness, and monitor a progress of polishing of the substrate based on the monitoring film thickness.

Abstract: According to one aspect, a substrate processing apparatus is provided. The substrate processing apparatus includes a table provided with a substrate holding surface for holding a substrate, a pad for processing the substrate held on the table, a head for holding the pad, an actuator for moving the head in a direction perpendicular to the substrate holding surface of the table, and a mechanical stopper device for stopping a movement of the head in the direction perpendicular to the substrate holding surface.

Abstract: It is an object of the present invention to provide a high-flatness substrate holding table. According to a first aspect, a substrate processing apparatus is provided, and such a substrate processing apparatus includes a table for holding a substrate, a resin film attached to a top surface of the table and a heater provided inside the table, and the top surface of the table is formed of ceramics, the top surface of the table includes an opening connectable to a vacuum source, the resin film is formed of polyimide, and a through hole is formed at a position corresponding to the opening of the table when attached to the top surface of the table.

Abstract: The present invention relates to a polishing method and a polishing apparatus for polishing a substrate such as a wafer while measuring a film thickness based on optical information included in reflected light from the substrate.

Abstract: A polishing method capable of obtaining a stable film thickness without being affected by a difference in measurement position is disclosed. The polishing method includes: rotating a polishing table that supports a polishing pad; pressing the surface of the wafer against the polishing pad; obtaining a plurality of film-thickness signals from a film thickness sensor during a latest predetermined number of revolutions of the polishing pad, the film thickness sensor being installed in the polishing table; determining a plurality of measured film thicknesses from the plurality of film-thickness signals; determining an estimated film thickness at a topmost portion of the raised portion based on the plurality of measured film thicknesses; and monitoring polishing of the wafer based on the estimated film thickness at the topmost portion of the raised portion.

Abstract: An object of the present invention is to improve a substrate processing apparatus using the CARE method. The present invention provides a substrate processing apparatus for polishing a processing target region of a substrate by bringing the substrate and a catalyst into contact with each other in the presence of processing liquid. The substrate processing apparatus includes a substrate holding unit configured to hold the substrate, a catalyst holding unit configured to hold the catalyst, and a driving unit configured to move the substrate holding unit and the catalyst holding unit relative to each other with the processing target region of the substrate and the catalyst kept in contact with each other. The catalyst is smaller than the substrate.

Abstract: The polishing device includes an edge chamber that presses the surface to be polished against the polishing pad by pressing a back side of the surface to be polished of the wafer, a thickness measuring unit that estimates a remaining film profile of the surface to be polished of the wafer in realtime during polishing, and a closed loop control device that controls a pressing force on the back side of the surface to be polished by the edge chamber in accordance with a measurement result by the thickness measuring unit during polishing. The closed loop control device controls not only the pressing by the edge chamber during polishing, but also the pressure of a retainer ring as a periphery of the edge chamber affecting the pressing of the surface to be polished against the polishing pad.

Abstract: The polishing device includes an edge chamber that presses the surface to be polished against the polishing pad by pressing a back side of the surface to be polished of the wafer, a thickness measuring unit that estimates a remaining film profile of the surface to be polished of the wafer in realtime during polishing, and a closed loop control device that controls a pressing force on the back side of the surface to be polished by the edge chamber in accordance with a measurement result by the thickness measuring unit during polishing. The closed loop control device controls not only the pressing by the edge chamber during polishing, but also the pressure of a retainer ring as a periphery of the edge chamber affecting the pressing of the surface to be polished against the polishing pad.

Abstract: A method dresses a polishing member with a diamond dresser having diamond particles arranged on a surface thereof. The method includes determining dressing conditions by performing a simulation of a distribution of a sliding distance of the diamond dresser on a surface of the polishing member, and dressing the polishing member with the diamond dresser under the determined dressing conditions. The simulation includes calculating the sliding distance corrected in accordance with a depth of the diamond particles thrusting into the polishing member.

Abstract: A polishing apparatus capable of achieving a highly-precise polishing result is disclosed. The polishing apparatus includes an in-line film-thickness measuring device configured to measure a film thickness of the substrate in a stationary state, and an in-situ spectral film-thickness monitor having a film thickness sensor disposed in a polishing table, the in-situ spectral film-thickness monitor being configured to subtract an initial film thickness, measured by the in-situ spectral film-thickness monitor before polishing of the substrate, from an initial film thickness, measured by the in-line film-thickness measuring device before polishing of the substrate, to determine a correction value, add the correction value to a film thickness that is measured when the substrate is being polished to obtain a monitoring film thickness, and monitor a progress of polishing of the substrate based on the monitoring film thickness.

Abstract: An apparatus for polishing a substrate includes a rotatable polishing table supporting a polishing pad, a substrate holder configured to hold the substrate and press the substrate against a polishing surface of the polishing pad on the rotating polishing table so as to polish the substrate, and a pad-temperature detector configured to measure a temperature of the polishing surface of the polishing pad. The apparatus also includes a pad-temperature regulator configured to contact the polishing surface to regulate the temperature of the polishing surface, and a temperature controller configured to control the temperature of the polishing surface by controlling the pad-temperature regulator based on information on the temperature of the polishing surface detected by the pad-temperature detector.

Abstract: An apparatus for polishing a substrate includes a rotatable polishing table supporting a polishing pad, a substrate holder configured to hold the substrate and press the substrate against a polishing surface of the polishing pad on the rotating polishing table so as to polish the substrate, and a pad-temperature detector configured to measure a temperature of the polishing surface of the polishing pad. The apparatus also includes a pad-temperature regulator configured to contact the polishing surface to regulate the temperature of the polishing surface, and a temperature controller configured to control the temperature of the polishing surface by controlling the pad-temperature regulator based on information on the temperature of the polishing surface detected by the pad-temperature detector.

Abstract: A substrate cleaning apparatus capable of efficiently cleaning a substrate, such as a wafer, is provided. The substrate cleaning apparatus includes: a substrate holder for holding and rotating a substrate; a chemical liquid nozzle for supplying a chemical liquid onto the substrate; a two-fluid nozzle for supplying a two-fluid jet onto the substrate; and a moving mechanism for moving the chemical liquid nozzle and the two-fluid nozzle together from a center to a periphery of the substrate. The chemical liquid nozzle and the two-fluid nozzle are adjacent to each other with a predetermined distance therebetween, and the chemical liquid nozzle is located forward of the two-fluid nozzle with respect to a movement direction of the chemical liquid nozzle and the two-fluid nozzle.

Abstract: A method dresses a polishing member with a diamond dresser having diamond particles arranged on a surface thereof. The method includes determining dressing conditions by performing a simulation of a distribution of a sliding distance of the diamond dresser on a surface of the polishing member, and dressing the polishing member with the diamond dresser under the determined dressing conditions. The simulation includes calculating the sliding distance corrected in accordance with a depth of the diamond particles thrusting into the polishing member.

Abstract: A method dresses a polishing member with a diamond dresser having diamond particles arranged on a surface thereof. The method includes determining dressing conditions by performing a simulation of a distribution of a sliding distance of the diamond dresser on a surface of the polishing member, and dressing the polishing member with the diamond dresser under the determined dressing conditions. The simulation includes calculating the sliding distance corrected in accordance with a depth of the diamond particles thrusting into the polishing member.