Adhesive bonding and miscellaneous chemical manufacture – Surface bonding means and/or assembly means therefor – Presses or press platen structures – per se
Reexamination Certificate
1998-12-15
2002-07-16
Osele, Mark A. (Department: 1734)
Adhesive bonding and miscellaneous chemical manufacture
Surface bonding means and/or assembly means therefor
Presses or press platen structures, per se
C156S345420, C269S021000, C438S458000, C083S177000, C029S426400
Reexamination Certificate
active
06418999
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a sample separating apparatus and method, and a substrate manufacturing method and, for example, to an apparatus and method of separating a plate-like sample having an internal fragile layer at the fragile layer, a sample support apparatus used in the separating apparatus, and a substrate manufacturing method using the separating apparatus.
2. Description of the Related Art
A substrate (SOI substrate) having an SOI (Silicon On Insulator) structure is known as a substrate having a single-crystal Si layer on an insulating layer. A device using this SOI substrate has many advantages that cannot be achieved by ordinary Si substrates. Examples of the advantages are as follows.
(1) The integration degree can be increased because dielectric isolation is easy.
(2) The radiation resistance can be increased.
(3) The operating speed of the device can be increased because the stray capacitance is small.
(4) No well step is necessary.
(5) Latch-up can be prevented.
(6) A completely depleted field-effect transistor can be formed by thin film formation.
Since an SOI structure has the above various advantages, researches have been made on its formation method for several decades.
As one SOI technology, an SOS (Silicon On Sapphire) technology by which Si is heteroepitaxially grown on a single-crystal sapphire substrate by CVD (Chemical Vapor Deposition) has been known for a long time. This SOS technology was once recognized as the most matured SOI technology. However, the SOS technology has not been put into practical use to date because, e.g., a large amount of crystal defects are produced by lattice mismatch in the interface between the Si layer and the underlying sapphire substrate, aluminum that forms the sapphire substrate mixes in the Si layer, the substrate is expensive, and it is difficult to obtain a large area.
Various SOI technology appeared following the SOS technology. For these SOI technologies, various methods have been examined aiming at reducing crystal defects or manufacturing cost. There are a method of implanting oxygen ions into a substrate to form a buried oxide layer, a method of bonding two wafers via an oxide film and polishing or etching one of the wafers to leave a thin single-crystal Si layer on the oxide film, and a method of implanting hydrogen ions to a predetermined depth from the surface of an Si substrate having an oxide film, bonding the Si substrate to the other substrate, and peeling the latter substrate (the other substrate) by a heat treatment while leaving a thin single-crystal Si layer on the oxide film.
The present applicant has disclosed a new SOI technology in Japanese Patent Laid-Open No. 5-21338. In this technology, a first substrate obtained by forming a non-porous single-crystal layer (including a single-crystal Si layer) on a single-crystal semiconductor substrate having a porous layer is bonded to a second substrate via an insulating layer (SiO
2
), and the two substrates are separated from the porous layer to transfer the non-porous single-crystal layer to the second substrate. This technology is advantageous in that the SOI layer has high film thickness uniformity, the crystal defect density in the SOI layer can be decreased, the SOI layer has high surface planarity, no expensive special fabrication apparatus is necessary, and SOI substrates having SOI films about a few hundred
~
to 10 &mgr;m thick can be fabricated by the same fabrication apparatus.
In addition, the present applicant has disclosed another technology in Japanese Patent Laid-Open No. 7-302889 in which, after the first and second substrates described above are bonded, the first substrate is separated from the second substrate without breaking, and the separated first substrate is reused by smoothening the surface and again forming a porous layer. Since the first substrate can be economically used, this technology has the advantages that the fabrication cost can be largely reduced and the fabrication process is also simple.
In the above technologies, however, when the two bonded substrates are separated it is necessary to prevent damages to the substrates and protect the fabrication apparatus and the like from contamination caused by the generation of particles.
SUMMARY OF THE INVENTION
The present invention has been made in consideration of the above situation, and has as its object to provide a separating apparatus and method suitable to separate a sample such as a substrate, a sample support apparatus used in this separating apparatus, and a substrate manufacturing method using the separating apparatus.
According to the present invention, there is provided a separating apparatus for separating a plate-like sample having an internal fragile layer at the fragile layer, characterized by comprising a jet unit for ejecting a fluid to the sample, and a pair of holding portions opposing each other to sandwich and hold the sample, wherein the pair of holding portions hold the sample to allow the sample to expand at a vicinity of a central portion due to a pressure of the fluid ejected from the jet unit and injected into the sample.
According to the present invention, there is also provided a separating apparatus for separating a plate-like sample having an internal fragile layer at the fragile layer, characterized by comprising a jet unit for ejecting a fluid to the sample, and a pair of holding portions opposing each other to sandwich and hold the sample, wherein the pair of holding portions hold the sample which can corrugate due to a pressure of the fluid ejected from the jet unit and injected into the sample.
In the separating apparatus, preferably, at least one of the pair of holding portions has a hollow contact portion, and the sample is held by bringing the contact portion into contact with the sample. The contact portion may comprise a multiple of contact portions.
In the separating apparatus, preferably, at least one of the pair of holding portions has an annular contact portion, and the sample is held by bringing the contact portion into contact with the sample. The contact portion may comprise a multiple of contact portions.
In the separating apparatus, preferably, at least one of the pair of holding portions has one or a plurality of stripe-shaped contact portions, and the sample is held by bringing the contact portion into contact with the sample.
In the separating apparatus, preferably, at least one of the pair of holding portions has one or a plurality of arcuated contact portions, and the sample is held by bringing the contact portion into contact with the sample.
In the separating apparatus, preferably, at least one of the pair of holding portions has one or a plurality of projecting contact portions on a main body surface, and the sample is held by bringing the contact portion into contact with the sample.
In the separating apparatus, preferably, at least one of the pair of holding portions has a radial contact portion, and the sample is held by bringing the contact portion into contact with the sample.
In the separating apparatus, preferably, at least one of the pair of holding portions has a contact portion which comes into contact with a peripheral portion of the sample, and the sample is held by bringing the contact portion into contact with the sample. Preferably, the contact portion can contact the whole peripheral portion of the sample.
The separating apparatus preferably further comprises a rotary mechanism for rotating the holding portion about a shaft perpendicular to a surface of the sample.
The separating apparatus preferably further comprises an adjustment mechanism for adjusting an interval between the pair of holding portions.
In the separating apparatus, preferably, in separating the sample by the fluid, the adjustment mechanism presses the sample to adjust the interval between the pair of holding portions.
In the separating apparatus, preferably, in separating the sample by the fluid, the adjustment mechanism maintains a substantially constant interval between
Omi Kazuaki
Sakaguchi Kiyofumi
Yanagita Kazutaka
Yonehara Takao
Cannon Kabushiki Kaisha
Morgan & Finnegan , LLP
Osele Mark A.
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