Doping, Graded, For Tapered Etching Patents (Class 148/DIG42)
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Patent number: 5882950Abstract: A fabrication method for a horizontal direction semiconductor PN junction array which can be achieved when an epitaxial layer is grown by a metalorganic chemical vapor deposition (MOCVD method) by introducing (or doping) a small amount of CCl.sub.4 or CBr.sub.4 gas, includes forming a recess on an N type GaAs substrate by using a non-planar growth, performing a growth method of a P type epitaxial layer on the N type GaAs substrate by a metalorganic chemical vapor deposition method, and forming a horizontal direction PN junction array of P-GaAs/N-GaAs or P-AlGaAs/N-GaAs by introducing a gas comprising CCl.sub.4 or CBr.sub.4 .Type: GrantFiled: December 27, 1996Date of Patent: March 16, 1999Assignee: Korea Institute Of Science And TechnologyInventors: Suk-Ki Min, Seong-Il Kim, Eun Kyu Kim
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Patent number: 5158907Abstract: Semiconductor devices having a low density of dislocation defects can be formed of epitaxial layers grown on defective or misfit substrates by making the thickness of the epitaxial layer sufficiently large in comparison to the maximum lateral dimension. With sufficient thickness, threading dislocations arising from the interface will exit the sides of the epitaxial structure and not reach the upper surface. Using this approach, one can fabricate integral gallium arsenide on silicon optoelectronic devices and parallel processing circuits. One can also improve the yield of lasers and photodetectors.Type: GrantFiled: August 2, 1990Date of Patent: October 27, 1992Assignee: AT&T Bell LaboratoriesInventor: Eugene A. Fitzgerald, Jr.
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Patent number: 5041397Abstract: A method of forming a PSG layer on a semiconductor substrate containing semiconductor elements by chemical vapor deposition is characterized in that the concentration of the PSG layer is gradually increased from the substrate surface toward the uppermost surface of the PSG layer.Type: GrantFiled: February 3, 1989Date of Patent: August 20, 1991Assignee: SamSung Electronics Co., Ltd.Inventors: Nam-Yoon Kim, Si-Choon Park
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Patent number: 4952446Abstract: This invention relates to ultra-thin semiconductor films which can be in the submicron range formed from semiconductor materials such as silicon, germanium and gallium arsenide. The films are formed by creating a thin slightly damaged surface on the polished reverse side of a film (e.g., a wafer) of the semiconductor by low dose ion implantation and then etching the semiconductor material on the front side of the film to remove the semiconductor material down to the ion implanted damaged layer. While the implanted ions can be chosen from functionally desirable ions which upon annealing remain in the film to alter the original electrical characteristics, the implanted ions can also be chosen so that upon annealing, the resultant ultra-thin semiconductor film has the same electrical characteristics as the original semiconductor material.The ion implantation changes the etching characteristics of the ion implanted layer.Type: GrantFiled: December 14, 1988Date of Patent: August 28, 1990Assignee: Cornell Research Foundation, Inc.Inventors: Kevin C. Lee, Charles A. Lee, John Silcox
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Patent number: 4946735Abstract: This invention relates to ultra-thin semiconductor films which can be in the submicron range formed from semiconductor materials such as silicon, germanium and gallium aresenide. The films are formed by creating a thin slightly damaged surface on the polished reverse side of a film (e.g., a wafer) of the semiconductor by low dose ion implantation and then etching the semiconductor material on the front side of the film to remove the semiconductor material down to the ion implanted damaged layer. While the implanted ions can be chosen from functionally desirable ions which upon annealing remain in the film to alter the original electrical characteristics, the implanted ions can also be chosen so that upon annealing, the resultant ultra-thin semiconductor film has the same electrical characteristics as the original semiconductor material.The ion implantation changes the etching characteristics of the ion implanted layer.Type: GrantFiled: December 14, 1988Date of Patent: August 7, 1990Assignee: Cornell Research Foundation, Inc.Inventors: Kevin C. Lee, Charles A. Lee, John Silcox
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Patent number: 4638551Abstract: An improved Schottky barrier device and method of manufacture is disclosed. The device has a semiconductor layer of first conductivity type; an insulating layer covering one face of the semiconductor layer, and has an opening therein. A conductor layer covers the semiconductor layer where the semiconductor layer is exposed by the opening and there forms a recitifying junction with the semiconductor layer. A first region of opposite conductivity type is at the one face of semiconductor layer and extends from where the conductor layer meets the insulating layer and below the conductor layer. A second region of opposite conductivity type is at the one face of semiconductor layer and begins where the conductor layer meets the insulating layer and extending below the insulating layer.Type: GrantFiled: February 21, 1985Date of Patent: January 27, 1987Assignee: General Instrument CorporationInventor: Willem G. Einthoven