Abstract: A structure with strained and defect free semiconductor layers. In a preferred embodiment, silicon on insulator may be used as a substrate for the growth of fully relaxed SiGe buffer layers. A new strain relief mechanism operates, whereby the SiGe layer relaxes without the generation of threading dislocations within the SiGe layer. This is achieved by depositing SiGe on an SOI substrate with a superficial silicon thickness. Initially the strain in the SiGe layer becomes equalized with the thin Si layer by creating tensile strain in the Si layer. Then the strain created in the thin Si layer is relaxed by plastic deformation during an anneal. Since dislocations are formed, and glide in the thin Si layer, threading dislocations are not introduced into the upper SiGe material. A strained silicon layer for heterostructures may then be formed on the SiGe material.

Abstract: There is described a process for making a high performance NPN bipolar transistor functioning in a current switch logic circuit. A bipolar transistor is formed within an isolated region of a monocrystalline silicon body wherein the transistor includes an N+ subcollector, an N+ collector reach-through which connects the subcollector to a major surface of the silicon body, a P base region above the subcollector and adjacent to the reach-through region, an N+ emitter region within the base region and extending from the major surface. The base region includes an intrinsic base region located below the emitter region and an extrinsic region located extending from the major surface and adjacent to the emitter region. The extrinsic base preferrably completely surrounds or rings the emitter region. A mask is formed above the major surface and the mask has openings therein only in the areas above major portions of the extrinsic base regions.

Abstract: A process for making high performance NPN bipolar transistors functioning in a current switch logic circuit. A bipolar transistor is formed within an isolated region of a monocrystalline silicon body. The transistor includes an N+ subcollector, and N+ collector reach-through which connects the subcollector to a major surface of the silicon body, a P base region above the subcollector and adjacent to the reach-through an N+ emitter region within the base region and extending from the major surface. The base region includes an intrinsic base region located below the emitter region and an extrinsic region extending from the major surface and adjacent to the emitter region. The extrinsic base completely surrounds the emitter region. A mask is formed above the major surface having openings only above major portions of the extrinsic base regions.