摘要:
A method for manufacturing an SOI wafer having a buried oxide film with a predetermined thickness including performing a heat treatment for reducing a thickness of the buried oxide film on an SOI wafer material having an SOI layer formed on the buried oxide film, wherein a thickness of the SOI layer of the SOI wafer material to be subjected to the heat treatment for reducing the thickness of the buried oxide film is calculated on the basis of a ratio of the thickness of the buried oxide film to be reduced by the heat treatment with respect to a permissible value of an amount of change in an in-plane range of the buried oxide film, the change being caused by the heat treatment, and the SOI wafer material obtained by thinning the thickness of the bond wafer so as to have the calculated thickness of the SOI layer is subjected to the heat treatment for reducing the thickness of the buried oxide film.
摘要:
A method for manufacturing a bonded wafer, including at least implanting at least one type of gas ion selected from a hydrogen ion and a rare gas ion from a surface of a bond wafer to form an ion-implanted layer in the wafer, bonding an ion-implanted surface of the bond wafer to a surface of a base wafer directly or through an insulator film, and then delaminating the bond wafer at the ion-implanted layer to fabricate a bonded wafer. A plasma treatment is applied to a bonding surface of one of the bond wafer and the base wafer to grow an oxide film, etching the grown oxide film is carried out, and bonding to the other wafer is performed. The method enables preventing defects by reducing particles on the bonding surface and performing strong bonding when effecting bonding directly or through the insulator film.
摘要:
A method for manufacturing a bonded wafer, including at least implanting at least one type of gas ion selected from a hydrogen ion and a rare gas ion from a surface of a bond wafer to form an ion-implanted layer in the wafer, bonding an ion-implanted surface of the bond wafer to a surface of a base wafer directly or through an insulator film, and then delaminating the bond wafer at the ion-implanted layer to fabricate a bonded wafer. A plasma treatment is applied to a bonding surface of one of the bond wafer and the base wafer to grow an oxide film, etching the grown oxide film is carried out, and bonding to the other wafer is performed. The method enables preventing defects by reducing particles on the bonding surface and performing strong bonding when effecting bonding directly or through the insulator film.
摘要:
A method for manufacturing an SOI wafer having a buried oxide film with a predetermined thickness including performing a heat treatment for reducing a thickness of the buried oxide film on an SOI wafer material having an SOI layer formed on the buried oxide film, wherein a thickness of the SOI layer of the SOI wafer material to be subjected to the heat treatment for reducing the thickness of the buried oxide film is calculated on the basis of a ratio of the thickness of the buried oxide film to be reduced by the heat treatment with respect to a permissible value of an amount of change in an in-plane range of the buried oxide film, the change being caused by the heat treatment, and the SOI wafer material obtained by thinning the thickness of the bond wafer so as to have the calculated thickness of the SOI layer is subjected to the heat treatment for reducing the thickness of the buried oxide film.
摘要:
The present invention provides a method for measuring a rotation angle of a bonded wafer, wherein a base wafer and a bond wafer each having a notch indicative of a crystal orientation formed at an outer edge thereof are bonded to each other at a desired rotation angle by utilizing the notches, a profile of the bond wafer having a reduced film thickness is observed with respect to a bonded wafer manufactured by reducing a film thickness of the bond wafer, a positional direction of the notch of the bond wafer seen from a center of the bonded wafer is calculated by utilizing the profile, an angle formed between the calculated positional direction of the notch of the bond wafer and a positional direction of the notch of the base wafer is calculated, and a rotation angle of the base wafer and the bond wafer is measured. As a result, the method for measuring a rotation angle of a bonded wafer that enables accurately and easily measuring the rotation angle of the notches of the base wafer and the bond wafer in a bonded wafer manufacturing line can be provided.
摘要:
A method for manufacturing a bonded wafer by forming an ion implanted layer in a bond wafer; bonding an ion implanted surface of the bond wafer to a surface of a base wafer directly or through a silicon oxide film; and performing a delamination heat treatment. After the formation of the ion implanted layer and before the bonding, a plasma treatment is carried out with respect to a bonding surface of at least one of the bond wafer and the base wafer. The delamination heat treatment is carried out at a fixed temperature by directly putting the bonded wafer into a heat-treating furnace whose furnace temperature is set to the fixed temperature less than 475° C. without a temperature increasing step.
摘要:
The present invention provides a method for measuring a rotation angle of a bonded wafer, wherein a base wafer and a bond wafer each having a notch indicative of a crystal orientation formed at an outer edge thereof are bonded to each other at a desired rotation angle by utilizing the notches, a profile of the bond wafer having a reduced film thickness is observed with respect to a bonded wafer manufactured by reducing a film thickness of the bond wafer, a positional direction of the notch of the bond wafer seen from a center of the bonded wafer is calculated by utilizing the profile, an angle formed between the calculated positional direction of the notch of the bond wafer and a positional direction of the notch of the base wafer is calculated, and a rotation angle of the base wafer and the bond wafer is measured. As a result, the method for measuring a rotation angle of a bonded wafer that enables accurately and easily measuring the rotation angle of the notches of the base wafer and the bond wafer in a bonded wafer manufacturing line can be provided.
摘要:
The present invention is an SOI wafer comprising at least: an SOI layer; a silicon oxide film; and a base wafer, wherein the SOI layer has a plane orientation of (100), and the base wafer has a resistivity of 100 Ω·cm or more and a plane orientation different from (100). As a result, there is provided the SOI wafer and the manufacturing method thereof that have no complicated manufacturing step, defects on a bonding interface which are not practically a problem in number and a high interface state density (Dit) for trapping carriers on an interface of a BOX layer and the base wafer.
摘要:
The present invention is a method for manufacturing a bonded wafer including at least the steps of: forming an ion-implanted layer inside a bond wafer; bringing the ion-implanted surface of the bond wafer into close contact with a surface of a base wafer directly or through a silicon oxide film; and performing heat treatment for delaminating the bond wafer at the ion-implanted layer, wherein the heat treatment step for delaminating includes performing a pre-annealing at a temperature of less than 500° C. and thereafter performing a delamination heat treatment at a temperature of 500° C. or more, and the pre-annealing is performed at least by a heat treatment at a first temperature and a subsequent heat treatment at a second temperature higher than the first temperature. As a result, there is provided a method for manufacturing a bonded wafer having high quality, for example, mainly the reduction of defects, by forming a high bonding strength state at a lower temperature than the temperature at which the delamination is caused, in the manufacture of the bonded wafer by the Smart Cut method (registered trademark).
摘要:
The present invention is an SOI wafer comprising at least: an SOI layer; a silicon oxide film; and a base wafer, wherein the SOI layer has a plane orientation of (100), and the base wafer has a resistivity of 100 Ω·cm or more and a plane orientation different from (100). As a result, there is provided the SOI wafer and the manufacturing method thereof that have no complicated manufacturing step, defects on a bonding interface which are not practically a problem in number and a high interface state density (Dit) for trapping carriers on an interface of a BOX layer and the base wafer.