A method of producing a glass article includes holding a carrier having a circular shape, in which a glass substrate having a circular shape is retained, with an upper surface plate and a lower surface plate; and polishing the glass substrate by rotating the carrier with respect to the upper surface plate and the lower surface plate, to obtain the glass article. The glass substrate is disposed in the carrier such that, in a top plan view, a center of the carrier is included in a region of the glass substrate, and a center of the glass substrate is shifted from the center of the carrier.

A method of producing a glass article includes holding a carrier having a circular shape, in which a glass substrate having a circular shape is retained, with an upper surface plate and a lower surface plate; and polishing the glass substrate by rotating the carrier with respect to the upper surface plate and the lower surface plate, to obtain the glass article. The glass substrate is disposed in the carrier such that, in a top plan view, a center of the carrier is included in a region of the glass substrate, and a center of the glass substrate is shifted from the center of the carrier.

A carrier has a plate-shaped carrier body that has an inner hole and is made of a first material, and an insertion member that is shaped such that the insertion member fits between the substrate and an inner circumference of the inner hole, that has a substrate holding hole, and that is made of a second material that is different from the first material. The insertion member has a region that bulges toward the carrier main body side, and when a radius of an inscribed circle inscribed to an inner circumference of the substrate holding hole of the insertion member is R, the center of gravity of the insertion member is located 0.1×R or more away from the center of an inner circumferential shape of the substrate holding hole of the insertion member.

A carrier has a plate-shaped carrier body that has an inner hole and is made of a first material, and an insertion member that is shaped such that the insertion member fits between the substrate and an inner circumference of the inner hole, that has a substrate holding hole, and that is made of a second material that is different from the first material. The insertion member has a region that bulges toward the carrier main body side, and when a radius of an inscribed circle inscribed to an inner circumference of the substrate holding hole of the insertion member is R, the center of gravity of the insertion member is located 0.1×R or more away from the center of an inner circumferential shape of the substrate holding hole of the insertion member.

In a double-side polishing apparatus includes at least one work thickness measuring instrument in real time during double-side polishing of the work; an inner circumferential surface defined by the through hole in said one of the upper plate and the lower plate is provided with a metal cylindrical member; and either of: a lower window provided in a lower part of the cylindrical member provided in the upper plate and an upper window provided in an upper part of the cylindrical member provided to cover the upper side of the through hole provided in the upper plate, or an upper window provided in an upper part of the cylindrical member provided in the lower plate and a lower window provided to cover the lower side of the through hole provided in the lower plate.—

In a double-side polishing apparatus includes at least one work thickness measuring instrument in real time during double-side polishing of the work; an inner circumferential surface defined by the through hole in said one of the upper plate and the lower plate is provided with a metal cylindrical member; and either of: a lower window provided in a lower part of the cylindrical member provided in the upper plate and an upper window provided in an upper part of the cylindrical member provided to cover the upper side of the through hole provided in the upper plate, or an upper window provided in an upper part of the cylindrical member provided in the lower plate and a lower window provided to cover the lower side of the through hole provided in the lower plate.—

A wafer polishing apparatus includes a lower surface plate, an upper surface plate disposed over the lower surface plate, a carrier disposed between the lower surface plate and the upper surface plate and containing a wafer, and a lift unit lifting the carrier such that an upper surface of the carrier contacts a lower surface of the upper surface plate or lowering the carrier such that a lower surface of the carrier contacts an upper surface of the lower surface plate.

A wafer polishing apparatus includes a lower surface plate, an upper surface plate disposed over the lower surface plate, a carrier disposed between the lower surface plate and the upper surface plate and containing a wafer, and a lift unit lifting the carrier such that an upper surface of the carrier contacts a lower surface of the upper surface plate or lowering the carrier such that a lower surface of the carrier contacts an upper surface of the lower surface plate.

Provided is a method of lapping a semiconductor wafer, which can suppress the formation of a ring-shaped pattern in a nanotopography map. The method of lapping a semiconductor wafer includes: a stopping step of stopping lapping of a semiconductor wafer; a reversing step of reversing surfaces of the semiconductor wafer facing a upper plate and a lower plate after the stopping step; and a resuming step of resuming lapping of the semiconductor wafer after the reversing step while maintaining the reversal of the surfaces facing the plates.

Provided is a method of lapping a semiconductor wafer, which can suppress the formation of a ring-shaped pattern in a nanotopography map. The method of lapping a semiconductor wafer includes: a stopping step of stopping lapping of a semiconductor wafer; a reversing step of reversing surfaces of the semiconductor wafer facing a upper plate and a lower plate after the stopping step; and a resuming step of resuming lapping of the semiconductor wafer after the reversing step while maintaining the reversal of the surfaces facing the plates.