A manufacturing method of a carrier for a double-side polishing apparatus, including: preparing a carrier base material and insert thicker than the carrier base material, inserting the insert into a holding hole so as to protrude the insert from both sides of the front surface and back surface of the carrier base material, measuring each of a front protruding amount of the insert protruded from front surface of the carrier base material and a back protruding amount of the insert protruded from back surface of the carrier base material, setting each rotational speed of the upper turn table and lower turn table in starting-up polishing of the carrier so as to decrease the difference between the front protruding amount and back protruding amount, and a starting-up polishing step to subject the carrier to starting-up polishing at each set rotational speed of the upper turn table and the lower turn table.

Provided is a double-side polishing apparatus and a double-side polishing method for a work which make it possible to terminate double-side polishing with timing allowing a work having been polished to have a target shape. A computing unit performs a step of grouping the data of thicknesses on a work basis; a step of extracting shape components of each work; a step of identifying a position of each of the shape components in the work radial direction; a step of computing a shape distribution of the work; a step of obtaining a shape index of the work; and a step of determining timing at which the obtained shape index becomes a set value of the shape index, determined based on a difference between a target value and an actual value of the shape index in the previous batch, as timing of termination of the double-side polishing.

Provided is a double-side polishing apparatus and a double-side polishing method for a work which make it possible to terminate double-side polishing with timing allowing a work having been polished to have a target shape. A computing unit performs a step of grouping the data of thicknesses on a work basis; a step of extracting shape components of each work; a step of identifying a position of each of the shape components in the work radial direction; a step of computing a shape distribution of the work; a step of obtaining a shape index of the work; and a step of determining timing at which the obtained shape index becomes a set value of the shape index, determined based on a difference between a target value and an actual value of the shape index in the previous batch, as timing of termination of the double-side polishing.

A {100} indium phosphide (InP) wafer with pits distributed on the back side thereof, a method and an etching solution for manufacturing thereof are provided, wherein the pits on the back side have an elongated shape with a maximum dimension of the long axis of 65 μm, and the pits have a maximum depth of 6.0 μm. The {100} indium phosphide (InP) wafer has controllable pits distribution on the back side, thus provide a controllable emissivity of the wafer back side surface for better control of wafer back side heating during the epitaxial growth.

A {100} indium phosphide (InP) wafer with pits distributed on the back side thereof, a method and an etching solution for manufacturing thereof are provided, wherein the pits on the back side have an elongated shape with a maximum dimension of the long axis of 65 μm, and the pits have a maximum depth of 6.0 μm. The {100} indium phosphide (InP) wafer has controllable pits distribution on the back side, thus provide a controllable emissivity of the wafer back side surface for better control of wafer back side heating during the epitaxial growth.

A rotor disk for guiding workpieces in a double-sided processing machine including a fluid feeding apparatus to feed a processing fluid into a working gap between a first working disk and a second working disk is provided. The rotor disk comprises a surface defining at least one workpiece opening configured to receive at least one workpiece to be processed on both sides in the double-sided processing machine in a material-removing manner using the processing fluid. A contact angle of a drop of the processing fluid with the surface is at least 60°.

A rotor disk for guiding workpieces in a double-sided processing machine including a fluid feeding apparatus to feed a processing fluid into a working gap between a first working disk and a second working disk is provided. The rotor disk comprises a surface defining at least one workpiece opening configured to receive at least one workpiece to be processed on both sides in the double-sided processing machine in a material-removing manner using the processing fluid. A contact angle of a drop of the processing fluid with the surface is at least 60°.

The present disclosure discloses a control method of a grinding water flow rate during a double side grinding process. A double side grinder used includes a grinding wheel, a feed unit and a water supply device, wherein a water inlet is disposed on the feed unit. The control method includes: S001: according to the operation procedure of a double side grinder, prepare for grinding and complete the installation and debugging of workpiece; S002: in the process of double side grinding, the flow rate of the water inlet is set to decrease with the shortening of the teeth length of the grinding wheel, and the flow rate of the water inlet is set to have a linear relationship with the teeth length of the grinding wheel.

The present disclosure discloses a control method of a grinding water flow rate during a double side grinding process. A double side grinder used includes a grinding wheel, a feed unit and a water supply device, wherein a water inlet is disposed on the feed unit. The control method includes: S001: according to the operation procedure of a double side grinder, prepare for grinding and complete the installation and debugging of workpiece; S002: in the process of double side grinding, the flow rate of the water inlet is set to decrease with the shortening of the teeth length of the grinding wheel, and the flow rate of the water inlet is set to have a linear relationship with the teeth length of the grinding wheel.

Example features relate to a method of polishing a chamfered wafer surface, the method including beveling a wafer to generate the chamfered wafer surface, the chamfered wafer surface being inclined with respect to a main wafer surface by an angle θ; and polishing the chamfered wafer surface with a polishing pad, a polishing surface of the polishing pad being inclined with respect to the chamfered wafer surface by an angle α; wherein the angle α is equal to or smaller than the angle θ. Example features relate to a system for polishing the chamfered surface, the system including a polishing pad mounting jig configured to polish the chamfered surface, an angle θ being defined between the chamfered surface and the main surface; and a polishing pad in contact with the chamfered surface at an angle α during polishing; wherein the angle α is smaller than the angle θ.