Process for the production of thin semiconductor material films
First Claim
1. Process for the preparation of thin semiconductor material films, wherein the process comprises subjecting a semiconductor material wafer having a planar face and whose plane, is substantially parallel to a principal crystallographic plane, to the three following stages:
- a first stage of implantation by ion bombardment of the face of said wafer by means of ions creating in the volume of said wafer at a depth close to the average penetration depth of said ions, a layer of gaseous microbubbles defining in the volume of said wafer a lower region constituting a majority of the substrate and an upper region constituting the thin film, the ions being chosen from among hydrogen gas ions or rare gas ions and the temperature of the wafer during implantation being kept below the temperature at which the gas produced by the implanted ions can escape from the semiconductor by diffusion,a second stage of intimately contacting the planar face of said wafer with a stiffener constituted by at least one rigid material layer,a third stage of thermally treating the assembly of said wafer and said stiffener at a temperature above that at which the ion bombardment takes place and adequate to create by a crystalline rearrangement effect in the wafer and a pressure effect in the microbubbles, a separation between the thin film and the majority of the substrate, the stiffener and the planar face of the wafer being kept in intimate contact during said stage.
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Abstract
Process for the preparation of thin moncrystalline or polycrystalline semiconductor material films, characterized in that it comprises subjecting a semiconductor material wafer having a planar face to the three following stages: a first stage of implantation by bombardment (2) of the face (4) of the said wafer (1) by means of ions creating in the volume of said wafer a layer (3) of gaseous microbubbles defining in the volume of said wafer a lower region (6) constituting the mass of the substrate and an upper region (5) constituting the thin film, a second stage of intimately contacting the planar face (4) of said wafer with a stiffener (7) constituted by at least one rigid material layer, a third stage of heat treating the assembly of said wafer (1) and said stiffener (7) at a temperature above that at which the ion bombardment (2) was carried out and sufficient to create by a crystalline rearrangement effect in said wafer (1) and a pressure effect in the said microbubbles, a separation between the thin film (5 ) and the mass of the substrate (6).
1716 Citations
9 Claims
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1. Process for the preparation of thin semiconductor material films, wherein the process comprises subjecting a semiconductor material wafer having a planar face and whose plane, is substantially parallel to a principal crystallographic plane, to the three following stages:
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a first stage of implantation by ion bombardment of the face of said wafer by means of ions creating in the volume of said wafer at a depth close to the average penetration depth of said ions, a layer of gaseous microbubbles defining in the volume of said wafer a lower region constituting a majority of the substrate and an upper region constituting the thin film, the ions being chosen from among hydrogen gas ions or rare gas ions and the temperature of the wafer during implantation being kept below the temperature at which the gas produced by the implanted ions can escape from the semiconductor by diffusion, a second stage of intimately contacting the planar face of said wafer with a stiffener constituted by at least one rigid material layer, a third stage of thermally treating the assembly of said wafer and said stiffener at a temperature above that at which the ion bombardment takes place and adequate to create by a crystalline rearrangement effect in the wafer and a pressure effect in the microbubbles, a separation between the thin film and the majority of the substrate, the stiffener and the planar face of the wafer being kept in intimate contact during said stage. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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Specification