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 magnetic element for strengthening a magnetic field formed in an object and an eddy current sensor using the magnetic field are provided. The eddy current sensor includes a bottom face portion which is a magnetic body, a magnetic core portion provided at the middle of the bottom face portion and a peripheral wall portion provided on the periphery of the bottom face portion. The eddy current sensor further includes an excitation coil disposed on an outer periphery of the magnetic core portion and capable of generating a magnetic field and an excitation coil disposed on an outer periphery of the peripheral wall portion and capable of generating a magnetic field.

Abstract: Provided is a substrate processing apparatus for making a catalyst and a substrate close to each other or be in contact with each other in the presence of processing liquid to etch a processing target area of the substrate, the substrate processing apparatus including a substrate holder for holding a substrate, and a catalyst holder for holding a catalyst, wherein the catalyst holder comprises a base plate having high rigidity, a piezoelectric element arranged to be adjacent to the base plate, a catalyst holding base having high rigidity arranged to be adjacent to the piezoelectric element, and a catalyst held by the catalyst holding base, and wherein the substrate processing apparatus further comprises a control device for controlling a driving voltage to be applied to the piezoelectric element.

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: 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: A substrate processing apparatus includes a polisher configured to polish a substrate using a polishing liquid, a first cleaner configured to clean the substrate polished by the polisher using sulfuric acid and hydrogen peroxide water, a second cleaner configured to clean the substrate cleaned by the first cleaner using a basic chemical liquid and hydrogen peroxide water, and a drier configured to dry the substrate cleaned by the second cleaner.

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 includes a table rotating motor configured to rotate a polishing table about its own axis, a top ring rotating motor configured to rotate a top ring about its own axis, a dresser configured to dress a polishing pad, and a pad-height measuring device configured to measure a height of the polishing pad. The polishing apparatus also includes a diagnostic device configured to calculate an amount of wear of the polishing pad from the height of the polishing pad and to determine the end of a life of the polishing pad based on the amount of the wear of the polishing pad, the torque or current of the table rotating motor, and the torque or current of the top ring rotating motor.

Abstract: A polishing apparatus includes a table rotating motor configured to rotate a polishing table about its own axis, a top ring rotating motor configured to rotate a top ring about its own axis, a dresser configured to dress a polishing pad, and a pad-height measuring device configured to measure a height of the polishing pad. The polishing apparatus also includes a diagnostic device configured to calculate an amount of wear of the polishing pad from the height of the polishing pad and to determine the end of a life of the polishing pad based on the amount of the wear of the polishing pad, the torque or current of the table rotating motor, and the torque or current of the top ring rotating motor.

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 method includes the steps of measuring a surface height of a polishing member 10 at each of plural oscillation sections Z1 to Z5 which are defined in advance on the polishing member 10 along an oscillation direction of a dresser 5; calculating a difference between a current profile obtained from measured values of the surface height and a target profile of the polishing member 10; and correcting moving speeds of the dresser 5 in the plural oscillation sections Z1 to Z5 so as to eliminate the difference.

Abstract: A polishing is used for polishing a substrate such as a semiconductor wafer to a flat mirror finish. The polishing apparatus includes a polishing table having a polishing surface, a substrate holding apparatus configured to hold the substrate and to press the substrate against the polishing surface, and a controller. The substrate holding apparatus includes an elastic membrane configured to forma substrate holding surface which is brought into contact with the substrate, a carrier provided above the elastic membrane, at least one pressure chamber formed between the elastic membrane and the carrier, and an infrared light detector configured to measure thermal energy from the elastic membrane. The controller calculates an estimate value of a temperature of the elastic membrane using a measured value of the infrared light detector.

Abstract: The method includes: calculating an increment of a sliding distance of a dresser by multiplying a relative speed between the dresser and a polishing member by a contact time between them; correcting the increment of the sliding distance by multiplying the calculated increment of the sliding distance by at least one correction coefficient; calculating the sliding distance by repeatedly adding the corrected increment of the sliding distance to the sliding distance according to elapse of time; and producing the sliding-distance distribution of the dresser from the obtained sliding distance and a position of a sliding-distance calculation point. The at least one correction coefficient includes an unevenness correction coefficient provided for the sliding-distance calculation point.

Abstract: A polishing is used for polishing a substrate such as a semiconductor wafer to a flat mirror finish. The polishing apparatus includes a polishing table having a polishing surface, a substrate holding apparatus configured to hold the substrate and to press the substrate against the polishing surface, and a controller. The substrate holding apparatus includes an elastic membrane configured to forma substrate holding surface which is brought into contact with the substrate, a carrier provided above the elastic membrane, at least one pressure chamber formed between the elastic membrane and the carrier, and an infrared light detector configured to measure thermal energy from the elastic membrane. The controller calculates an estimate value of a temperature of the elastic membrane using a measured value of the infrared light detector.

Abstract: A method of polishing a substrate having a film is provided. The method includes: performing polishing of the substrate in a polishing section; transporting the polished substrate to a wet-type film thickness measuring device prior to cleaning and drying of the substrate; measuring a thickness of the film by the wet-type film thickness measuring device; comparing the thickness with a predetermined target value; and if the thickness has not reached the predetermined target value, performing re-polishing of the substrate in the polishing section prior to cleaning and drying of the substrate.

Abstract: A polishing is used for polishing a substrate such as a semiconductor wafer to a flat mirror finish. The polishing apparatus includes a polishing table having a polishing surface, a substrate holding apparatus configured to hold the substrate and to press the substrate against the polishing surface, and a controller. The substrate holding apparatus includes an elastic membrane configured to forma substrate holding surface which is brought into contact with the substrate, a carrier provided above the elastic membrane, at least one pressure chamber formed between the elastic membrane and the carrier, and an infrared light detector configured to measure thermal energy from the elastic membrane. The controller calculates an estimate value of a temperature of the elastic membrane using a measured value of the infrared light detector.

Abstract: A polishing is used for polishing a substrate such as a semiconductor wafer to a flat mirror finish. The polishing apparatus includes a polishing table having a polishing surface, a substrate holding apparatus configured to hold the substrate and to press the substrate against the polishing surface, and a controller. The substrate holding apparatus includes an elastic membrane configured to forma substrate holding surface which is brought into contact with the substrate, a carrier provided above the elastic membrane, at least one pressure chamber formed between the elastic membrane and the carrier, and an infrared light detector configured to measure thermal energy from the elastic membrane. The controller calculates an estimate value of a temperature of the elastic membrane using a measured value of the infrared light detector.

Abstract: A method of polishing a substrate having a film is provided. The method includes: performing polishing of the substrate in a polishing section; transporting the polished substrate to a wet-type film thickness measuring device prior to cleaning and drying of the substrate; measuring a thickness of the film by the wet-type film thickness measuring device; comparing the thickness with a predetermined target value; and if the thickness has not reached the predetermined target value, performing re-polishing of the substrate in the polishing section prior to cleaning and drying of the substrate.