摘要:
A method for producing an SOI wafer by the hydrogen ion delamination method comprising at least a step of bonding a base wafer and a bond wafer having a micro bubble layer formed by gas ion implantation and a step of delaminating a wafer having an SOI layer at the micro bubble layer as a border, wherein, after the delamination step, the wafer having an SOI layer is subjected to a two-stage heat treatment in an atmosphere containing hydrogen or argon utilizing a rapid heating/rapid cooling apparatus (RTA) and a batch processing type furnace. Preferably, the heat treatment by the RTA apparatus is performed first. Surface roughness of an SOI layer surface delaminated by the hydrogen ion delamination method is improved over the range from short period to long period, and SOI wafers free from generation of pits due to COPs in SOI layers are efficiently produced with high throughput.
摘要:
A method for producing an SOI wafer by the hydrogen ion delamination method comprising at least a step of bonding a base wafer and a bond wafer having a micro bubble layer formed by gas ion implantation and a step of delaminating a wafer having an SOI layer at the micro bubble layer as a border, wherein, after the delamination step, the wafer having an SOI layer is subjected to a two-stage heat treatment in an atmosphere containing hydrogen or argon utilizing a rapid heating/rapid cooling apparatus (RTA) and a batch processing type furnace. Preferably, the heat treatment by the RTA apparatus is performed first. Surface roughness of an SOI layer surface delaminated by the hydrogen ion delamination method is improved over the range from short period to long period, and SOI wafers free from generation of pits due to COPs in SOI layers are efficiently produced with high throughput.
摘要:
A method for producing an SOI wafer by the hydrogen ion delamination method comprising at least a step of bonding a base wafer and a bond wafer having a micro bubble layer formed by gas ion implantation and a step of delaminating a wafer having an SOI layer at the micro bubble layer as a border, wherein, after the delamination step, the wafer having an SOI layer is subjected to a two-stage heat treatment in an atmosphere containing hydrogen or argon utilizing a rapid heating/rapid cooling apparatus (RTA) and a batch processing type furnace. Preferably, the heat treatment by the RTA apparatus is performed first. Surface roughness of an SOI layer surface delaminated by the hydrogen ion delamination method is improved over the range from short period to long period, and SOI wafers free from generation of pits due to COPs in SOI layers are efficiently produced with high throughput.
摘要:
In a method for reclaiming a delaminated wafer produced as a by-product in the production of bonded wafer by the ion implantation and delamination method, at least ion-implanted layer on a chamfered portion of the delaminated wafer is removed, and then a surface of the wafer is polished. Specifically, at least a chamfered portion of the delaminated wafer is subjected to an etching treatment and/or processing by chamfering, and then a surface of the wafer is polished. Alternatively, the delaminated wafer is subjected to a heat treatment, and then polished. There are provided a method for reclaiming a delaminated wafer, which provides a reclaimed wafer of high quality that does not generate particles even when it is subjected to a heat treatment with good yield, and such a reclaimed wafer.
摘要:
In a method for reclaiming a delaminated wafer produced as a by-product in the production of bonded wafer by the ion implantation and delamination method, at least ion-implanted layer on a chamfered portion of the delaminated wafer is removed, and then a surface of the wafer is polished. Specifically, at least a chamfered portion of the delaminated wafer is subjected to an etching treatment and/or processing by chamfering, and then a surface of the wafer is polished. Alternatively, the delaminated wafer is subjected to a heat treatment, and then polished. There are provided a method for reclaiming a delaminated wafer, which provides a reclaimed wafer of high quality that does not generate particles even when it is subjected to a heat treatment with good yield, and such a reclaimed wafer.
摘要:
An inspection method of an SOI wafer in which profiles P1 and P2 are calculated in the SOI wafer to be inspected and in an SOI wafer having a film thickness of the SOI layer thicker or thinner than that of the SOI wafer to be inspected, respectively; a profile P3 of a difference between P1 and P2, or a profile P4 of a change ratio of P1 and P2 is calculated; light having the wavelength band selected on the basis of a maximum peak wavelength within the calculated profiles P3 or P4 is irradiated to the surface of the SOI wafer to be inspected, to detect the reflected-light from the SOI wafer; and a place of a peak generated by an increase in reflection intensity of the detected reflected-light is found, as the defect caused by the change in the film thickness of the SOI layer.
摘要:
A method for evaluating a thin-film-formed wafer, being configured to calculate a film thickness distribution of a thin film of the thin-film-formed wafer having the thin film on a surface of a substrate, wherein light having a single wavelength λ is applied to a partial region of a surface of the thin-film-formed wafer, reflected light from the region is detected, reflected light intensity for each pixel obtained by dividing the region into many pieces is measured, a reflected light intensity distribution in the region is obtained, and the film thickness distribution of the thin film in the region is calculated from the reflected light intensity distribution. The method enables a film thickness distribution of the micro thin film (an SOI layer) that affects a device to be measured on the entire wafer surface at a low cost with a sufficient spatial resolution in a simplified manner.
摘要:
According to the present invention, there is provided a method for manufacturing an SOI wafer, the method configured to grow an epitaxial layer on an SOI layer of the SOI wafer having the SOI layer on a BOX layer to increase a thickness of the SOI layer, wherein epitaxial growth is carried out by using an SOI wafer whose infrared reflectance in an infrared wavelength range of 800 to 1300 nm falls within the range of 20% to 40% as the SOI wafer on which the epitaxial layer is grown. As a result, a high-quality SOI wafer with less slip dislocation and others can be provided with excellent productivity at a low cost as the SOI wafer including the SOI layer having a thickness increased by growing the epitaxial layer, and a manufacturing method thereof can be also provide.
摘要:
A method for evaluating a thin-film-formed wafer, being configured to calculate a film thickness distribution of a thin film of the thin-film-formed wafer having the thin film on a surface of a substrate, wherein light having a single wavelength λ is applied to a partial region of a surface of the thin-film-formed wafer, reflected light from the region is detected, reflected light intensity for each pixel obtained by dividing the region into many pieces is measured, a reflected light intensity distribution in the region is obtained, and the film thickness distribution of the thin film in the region is calculated from the reflected light intensity distribution. The method enables a film thickness distribution of the micro thin film (an SOI layer) that affects a device to be measured on the entire wafer surface at a low cost with a sufficient spatial resolution in a simplified manner.
摘要:
A method for manufacturing an SOI wafer that has an SOI layer formed on a buried insulator layer and is suitable for photolithography with an exposure light having a wavelength λ comprises: designing a thickness of the buried insulator layer of the SOI wafer on the basis of the wavelength λ of the exposure light utilized for the photolithography that is to be performed on the SOI wafer after manufacturing; and fabricating the SOI wafer that has the SOI layer formed on the buried insulator layer having the designed thickness. As a result, there is provided a method for designing an SOI wafer and a method for manufacturing an SOI wafer that enable the variation in the reflection rate of the exposure light due to the variation in the SOI layer thickness and hence variation in the exposure state of a resist to be inhibited in a photolithography operation.