Abstract: There is disclosed a polishing apparatus which can regulate a surface temperature of the polishing pad without causing a defect such as a scratch on a substrate such as a wafer. The polishing apparatus includes: a non-contact type pad-temperature regulating device; a pad-temperature measuring device. The pad-temperature measuring device is arranged adjacent to the pad-temperature regulating device and on a downstream side of the pad-temperature regulating device in a rotation direction of a polishing table.

Abstract: A polishing method capable of terminating polishing of a substrate, such as a wafer, at a preset polishing time is disclosed. The polishing method includes: polishing a substrate by pressing the substrate against a polishing surface of a polishing pad, while regulating a temperature of the polishing surface by a heat exchanger; calculating a target polishing rate required for an actual polishing time to coincide with a target polishing time, the actual polishing time being a time duration from start of polishing the substrate until a film thickness of the substrate reaches a target thickness; determining a target temperature of the polishing surface that can achieve the target polishing rate; and during polishing of the substrate, changing a temperature of the polishing surface to the target temperature by the heat exchanger.

Abstract: A polishing method capable of terminating polishing of a substrate, such as a wafer, at a preset polishing time is disclosed. The polishing method includes: polishing a substrate by pressing the substrate against a polishing surface of a polishing pad, while regulating a temperature of the polishing surface by a heat exchanger; calculating a target polishing rate required for an actual polishing time to coincide with a target polishing time, the actual polishing time being a time duration from start of polishing the substrate until a film thickness of the substrate reaches a target thickness; determining a target temperature of the polishing surface that can achieve the target polishing rate; and during polishing of the substrate, changing a temperature of the polishing surface to the target temperature by the heat exchanger.

Abstract: There is disclosed a polishing apparatus which can regulate a surface temperature of the polishing pad without causing a defect such as a scratch on a substrate such as a wafer. The polishing apparatus includes: a non-contact type pad-temperature regulating device; a pad-temperature measuring device. The pad-temperature measuring device is arranged adjacent to the pad-temperature regulating device and on a downstream side of the pad-temperature regulating device in a rotation direction of a polishing table.

Abstract: A polishing method capable of terminating polishing of a substrate, such as a wafer, at a preset polishing time is disclosed. The polishing method includes: polishing a substrate by pressing the substrate against a polishing surface of a polishing pad, while regulating a temperature of the polishing surface by a heat exchanger; calculating a target polishing rate required for an actual polishing time to coincide with a target polishing time, the actual polishing time being a time duration from start of polishing the substrate until a film thickness of the substrate reaches a target thickness; determining a target temperature of the polishing surface that can achieve the target polishing rate; and during polishing of the substrate, changing a temperature of the polishing surface to the target temperature by the heat exchanger.

Abstract: A method capable of precisely regulating a surface temperature of a polishing pad is disclosed. The method includes: determining a heating-side manipulation range by removing a dead band of a first flow-rate control valve from a range of manipulated variable for the first flow-rate control valve; setting a first manipulated variable, selected from the heating-side manipulation range, to the first flow-rate control valve; determines a cooling-side manipulation range by removing a dead band of a second flow-rate control valve from a range of manipulated variable for the second flow-rate control valve; setting a second manipulated variable, selected from the cooling-side manipulation range, to the second flow-rate control valve; and supplying a heating fluid and a cooling fluid that have passed through the flow-rate control valves to a heat exchanger to regulate a surface temperature of a polishing pad.

Abstract: A heat exchanger capable of preventing sticking of slurry is disclosed. The heat exchanger includes: a flow passage structure having a heating flow passage and a cooling flow passage formed therein; and a water-repellent material covering a side surface of the flow passage structure. A side surface of the heat exchanger is constituted by the water-repellent material.