Manufacturing strained silicon substrates using a backing material
First Claim
1. A method for forming a strained silicon layer of semiconductor material, the method comprising:
- providing a deformable surface region having a first predetermined radius of curvature, the first predetermined radius of curvature being defined by R(1) and being defined normal to the surface region;
coupling a backside surface of the deformable surface with a backing plate to cause the deformable surface to be substantially non-deformable;
providing a first substrate having a first thickness, the first substrate having a face, a backside, and a cleave plane within the first thickness;
overlying the backside of the first substrate on a portion of the surface region having the predetermined radius of curvature to cause a first bend within the thickness of material to form a first strain within a portion of the first thickness;
providing a second substrate having a second thickness, the second substrate having a face and a backside;
overlying the face of the second substrate on a portion of the face of the first substrate to cause a second bend within the thickness of material to form a second strain within a portion of the second thickness;
joining the face of the second substrate to the face of the first substrate to form a sandwich structure while maintaining the first bend in the first substrate and the second bend in the second substrate; and
releasing a portion of a thickness of the first substrate along a vicinity of the cleave plane to free the portion of the thickness of material from a remaining portion of the first substrate while being attached to the second substrate; and
conforming the shape of the thickness of material to the second substrate as a radius of curvature on the second substrate approaches a second predetermined radius (R2) of curvature; and
increasing a magnitude of a strain from the first strain to a third strain within the thickness of material as the thickness of material of conforms in shape to the second substrate as the radius of curvature on the second substrate approaches the second predetermined radius of curvature.
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Abstract
A method for forming a strained silicon layer of semiconductor material. The method includes providing a deformable surface region having a first predetermined radius of curvature, which is defined by R(1) and is defined normal to the surface region. A backing plate is coupled to the deformable surface region to cause the deformable surface region to be substantially non-deformable. The method includes providing a first substrate (e.g., silicon wafer) having a first thickness. Preferably, the first substrate has a face, a backside, and a cleave plane defined within the first thickness. The method includes a step of overlying the backside of the first substrate on a portion of the surface region having the predetermined radius of curvature to cause a first bend within the thickness of material to form a first strain within a portion of the first thickness. The method provides a second substrate having a second thickness, which has a face and a backside. The method includes a step of overlying the face of the second substrate on a portion of the face of the first substrate to cause a second bend within the thickness of material to form a second strain within a portion of the second thickness. A step of joining the face of the second substrate to the face of the first substrate form a sandwich structure while maintaining the first bend in the first substrate and the second bend in the second substrate. Preferably, joining occurs using a low temperature process such as plasma activated bonding or the like.
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Citations
16 Claims
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1. A method for forming a strained silicon layer of semiconductor material, the method comprising:
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providing a deformable surface region having a first predetermined radius of curvature, the first predetermined radius of curvature being defined by R(1) and being defined normal to the surface region; coupling a backside surface of the deformable surface with a backing plate to cause the deformable surface to be substantially non-deformable; providing a first substrate having a first thickness, the first substrate having a face, a backside, and a cleave plane within the first thickness; overlying the backside of the first substrate on a portion of the surface region having the predetermined radius of curvature to cause a first bend within the thickness of material to form a first strain within a portion of the first thickness; providing a second substrate having a second thickness, the second substrate having a face and a backside; overlying the face of the second substrate on a portion of the face of the first substrate to cause a second bend within the thickness of material to form a second strain within a portion of the second thickness; joining the face of the second substrate to the face of the first substrate to form a sandwich structure while maintaining the first bend in the first substrate and the second bend in the second substrate; and releasing a portion of a thickness of the first substrate along a vicinity of the cleave plane to free the portion of the thickness of material from a remaining portion of the first substrate while being attached to the second substrate; and conforming the shape of the thickness of material to the second substrate as a radius of curvature on the second substrate approaches a second predetermined radius (R2) of curvature; and increasing a magnitude of a strain from the first strain to a third strain within the thickness of material as the thickness of material of conforms in shape to the second substrate as the radius of curvature on the second substrate approaches the second predetermined radius of curvature. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16)
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Specification