摘要:
The present invention relates to a process for manufacturing a structure comprising a germanium layer (3) on a support substrate (1), characterised in that it comprises the following steps: (a) formation of an intermediate structure (10) comprising said support substrate (1), a silicon oxide layer (20) and said germanium layer (3), the silicon oxide layer (20) being in direct contact with the germanium layer (3), (b) application to said intermediate structure (10) of a heat treatment, in a neutral or reducing atmosphere, at a defined temperature and for a defined time, to diffuse at least part of the oxygen from the silicon oxide layer (20) through the germanium layer (3).
摘要:
Embodiments of the invention relate to substrates comprising a base wafer, an insulating layer and a top semiconductor layer, wherein the insulating layer comprises at least a zone wherein a density of charges is in absolute value higher than 1010 charges/cm2. The invention also relates to processes for making such substrates.
摘要翻译:本发明的实施例涉及包括基底晶片,绝缘层和顶部半导体层的基板,其中绝缘层至少包括电荷密度高于1010电荷/ cm 2的绝对值的区域。 本发明还涉及制造这种基材的方法。
摘要:
Embodiments of the invention relate to substrates comprising a base wafer, an insulating layer and a top semiconductor layer, wherein the insulating layer comprises at least a zone wherein a density of charges is in absolute value higher than 1010 charges/cm2. The invention also relates to processes for making such substrates.
摘要翻译:本发明的实施例涉及包括基底晶片,绝缘层和顶部半导体层的基板,其中绝缘层至少包括电荷密度高于1010电荷/ cm 2的绝对值的区域。 本发明还涉及制造这种基材的方法。
摘要:
A method for transferring a layer of semiconductor by providing a donor substrate that includes a useful layer of a semiconductor material, a confinement structure that includes a confinement layer of a semiconductor material having a chemical composition that is different than that of the useful layer, and two protective layers of semiconductor material that are distinct from the confinement layer with the protective layers being arranged on both sides of the confinement layer; introducing ions into a donor substrate, bonding the donor substrate to a receiver substrate, subjecting the donor and receiver substrates to a heat treatment that provides an increase in temperature during which the confinement layer attracts the ions in order to concentrate them in the confinement layer, and detaching the donor substrate from the receiver substrate by breaking the confinement layer.
摘要:
A method for transferring a layer of semiconductor by providing a donor substrate that includes a useful layer of a semiconductor material, a confinement structure that includes a confinement layer of a semiconductor material having a chemical composition that is different than that of the useful layer, and two protective layers of semiconductor material that is distinct from the confinement layer with the protective layers being arranged on both sides of the confinement layer; introducing ions into the donor substrate, bonding the donor substrate to a receiver substrate, subjecting the donor and receiver substrates to a heat treatment that provides an increase in temperature during which the confinement layer attracts the ions in order to concentrate them in the confinement layer, and detaching the donor substrate from the receiver substrate by breaking the confinement layer.
摘要:
A process for fabricating a substrate that includes a buried oxide layer for the production of electronic components or the like. The process includes depositing an oxide layer or a nitride layer on either of a donor or receiver substrate, and bringing the donor and receiver substrates into contact; conducting at least a first heat treatment of the oxide or nitride layer before bonding the substrates, and conducting a second heat treatment of the fabricated substrate of the receiver substrate, the oxide layer and all or part of the donor substrate at a temperature equal to or higher than the temperature applied in the first heat treatment. Substrates that have an oxide or nitride layer deposited thereon wherein the oxide or nitride layer is degassed and has a refractive index smaller than the refractive index of an oxide or nitride layer of the same composition formed by thermal growth.
摘要:
A process for fabricating a substrate that includes a buried oxide layer for the production of electronic components or the like. The process includes depositing an oxide layer or a nitride layer on either of a donor or receiver substrate, and bringing the donor and receiver substrates into contact; conducting at least a first heat treatment of the oxide or nitride layer before bonding the substrates, and conducting a second heat treatment of the fabricated substrate of the receiver substrate, the oxide layer and all or part of the donor substrate at a temperature equal to or higher than the temperature applied in the first heat treatment. Substrates that have an oxide or nitride layer deposited thereon wherein the oxide or nitride layer is degassed and has a refractive index smaller than the refractive index of an oxide or nitride layer of the same composition formed by thermal growth.
摘要:
A method for reducing irregularities at the surface of a layer transferred from a source substrate to a glass-based support substrate, by generating a weakening zone in the source substrate; contacting the source substrate and the glass-based support substrate; and splitting the source substrate at the weakening zone; wherein the glass-based substrate has a thickness of between 300 μm and 600 μm.
摘要:
A method for forming, in a single-crystal semiconductor substrate of a first conductivity type, doped surface regions of the second conductivity type and deeper doped regions of the first conductivity type underlying the surface regions, including the step of negatively biasing the substrate placed in the vicinity of a plasma including, in the form of cations dopants of the first conductivity type and dopants of a second conductivity type, the dopants of the second conductivity type having an atomic mass which is greater than that of the dopants of the first conductivity type.
摘要:
A method for reducing irregularities at a surface of a layer transferred from a source substrate to a glass-based support substrate, by generating a weakening zone in the source substrate; contacting the source substrate and the glass-based support substrate; and splitting the source substrate at the weakening zone; wherein the glass-based substrate has a thickness of between 300 μm and 600 μm.