ANTI-HALO COMPENSATION
    1.
    发明申请
    ANTI-HALO COMPENSATION 失效
    反哈马赔偿

    公开(公告)号:US20070054480A1

    公开(公告)日:2007-03-08

    申请号:US11162478

    申请日:2005-09-12

    IPC分类号: H01L21/04

    摘要: An apparatus and method for controlling the net doping in the active region of a semiconductor device in accordance with a gate length. The method includes doping a short channel device and a long channel device with a first dopant, and doping the short channel device and the long channel device with a second dopant at a same implantation energy, dose, and angle for both the short channel device and the long channel device. The second dopant neutralizes the first dopant in portion to a gate length of the short channel device and the second channel device.

    摘要翻译: 一种用于根据栅极长度控制半导体器件的有源区域中的净掺杂的装置和方法。 该方法包括用第一掺杂剂掺杂短沟道器件和长沟道器件,并以相同的注入能量,剂量和角度对短沟道器件和长沟道器件掺杂第二掺杂剂,以便短沟道器件和 长通道设备。 第二掺杂剂部分地将第一掺杂剂中和到短沟道器件和第二通道器件的栅极长度。

    HYBRID SOI/BULK SEMICONDUCTOR TRANSISTORS
    2.
    发明申请
    HYBRID SOI/BULK SEMICONDUCTOR TRANSISTORS 有权
    混合SOI / BULK半导体晶体管

    公开(公告)号:US20050189589A1

    公开(公告)日:2005-09-01

    申请号:US10708378

    申请日:2004-02-27

    摘要: Channel depth in a field effect transistor is limited by an intra-layer structure including a discontinuous film or layer formed within a layer or substrate of semiconductor material. Channel depth can thus be controlled much in the manner of SOI or UT-SOI technology but with less expensive substrates and greater flexibility of channel depth control while avoiding floating body effects characteristic of SOI technology. The profile or cross-sectional shape of the discontinuous film may be controlled to an ogee or staircase shape to improve short channel effects and reduce source/drain and extension resistance without increase of capacitance. Materials for the discontinuous film may also be chosen to impose stress on the transistor channel from within the substrate or layer and provide increased levels of such stress to increase carrier mobility. Carrier mobility may be increased in combination with other meritorious effects.

    摘要翻译: 场效应晶体管中的沟道深度由包括在半导体材料的层或衬底内形成的不连续膜或层的层内结构限制。 因此,可以以SOI或UT-SOI技术的方式控制通道深度,但是具有较便宜的衬底和更大的通道深度控制的灵活性,同时避免SOI技术的浮体效应特性。 不连续膜的轮廓或横截面形状可以被控制为奥格或阶梯形状,以改善短通道效应,并且在不增加电容的情况下降低源极/漏极和延伸电阻。 也可以选择用于不连续膜的材料以在衬底或层内从晶体管沟道施加应力,并提供增加的这种应力水平以增加载流子迁移率。 携带者的流动性可能会与其他有利的影响相结合。

    Anti-halo compensation
    3.
    发明授权
    Anti-halo compensation 失效
    防晕补偿

    公开(公告)号:US07776725B2

    公开(公告)日:2010-08-17

    申请号:US11162478

    申请日:2005-09-12

    IPC分类号: H01L21/04

    摘要: An apparatus and method for controlling the net doping in the active region of a semiconductor device in accordance with a gate length. The method includes doping a short channel device and a long channel device with a first dopant, and doping the short channel device and the long channel device with a second dopant at a same implantation energy, dose, and angle for both the short channel device and the long channel device. The second dopant neutralizes the first dopant in portion to a gate length of the short channel device and the second channel device.

    摘要翻译: 一种用于根据栅极长度控制半导体器件的有源区域中的净掺杂的装置和方法。 该方法包括用第一掺杂剂掺杂短沟道器件和长沟道器件,并以相同的注入能量,剂量和角度对短沟道器件和长沟道器件掺杂第二掺杂剂,以便短沟道器件和 长通道设备。 第二掺杂剂部分地将第一掺杂剂中和到短沟道器件和第二通道器件的栅极长度。

    STRUCTURE AND METHOD FOR MANUFACTURING PLANAR STRAINED Si/SiGe SUBSTRATE WITH MULTIPLE ORIENTATIONS AND DIFFERENT STRESS LEVELS
    4.
    发明申请
    STRUCTURE AND METHOD FOR MANUFACTURING PLANAR STRAINED Si/SiGe SUBSTRATE WITH MULTIPLE ORIENTATIONS AND DIFFERENT STRESS LEVELS 审中-公开
    用于制造具有多个方位和不同应力水平的平面应变Si / SiGe衬底的结构和方法

    公开(公告)号:US20070170507A1

    公开(公告)日:2007-07-26

    申请号:US11693377

    申请日:2007-03-29

    摘要: The present invention provides a method of forming a semiconducting substrate including the steps of providing an initial structure having first device region comprising a first orientation material and a second device region having a second orientation material; forming a first concentration of lattice modifying material atop the first orientation material; forming a second concentration of the lattice modifying material atop the second orientation material; intermixing the first concentration of lattice modifying material with the first orientation material to produce a first lattice dimension surface and the second concentration of lattice modifying material the second orientation material to produce a second lattice dimension surface; and forming a first strained semiconducting layer atop the first lattice dimension surface and a second strained semiconducting layer atop the second lattice dimension surface.

    摘要翻译: 本发明提供一种形成半导体衬底的方法,包括以下步骤:提供具有包括第一取向材料的第一器件区域和具有第二取向材料的第二器件区域的初始结构; 在所述第一取向材料的顶部上形成晶格改性材料的第一浓度; 在所述第二取向材料的顶部上形成所述晶格改性材料的第二浓度; 将所述晶格修饰材料的第一浓度与所述第一取向材料混合以产生第一晶格尺寸表面,并且所述第二浓度的晶格修饰材料形成所述第二取向材料以产生第二晶格尺寸表面; 以及在所述第一晶格尺寸表面上方形成第一应变半导体层和在所述第二晶格尺寸表面顶部形成第二应变半导体层。

    STRUCTURE AND METHOD FOR MANUFACTURING PLANAR STRAINED Si/SiGe SUBSTRATE WITH MULTIPLE ORIENTATIONS AND DIFFERENT STRESS LEVELS
    5.
    发明申请
    STRUCTURE AND METHOD FOR MANUFACTURING PLANAR STRAINED Si/SiGe SUBSTRATE WITH MULTIPLE ORIENTATIONS AND DIFFERENT STRESS LEVELS 失效
    用于制造具有多个方位和不同应力水平的平面应变Si / SiGe衬底的结构和方法

    公开(公告)号:US20060172495A1

    公开(公告)日:2006-08-03

    申请号:US10905978

    申请日:2005-01-28

    IPC分类号: H01L21/8234

    摘要: The present invention provides a method of forming a semiconducting substrate including the steps of providing an initial structure having first device region comprising a first orientation material and a second device region having a second orientation material; forming a first concentration of lattice modifying material atop the first orientation material; forming a second concentration of the lattice modifying material atop the second orientation material; intermixing the first concentration of lattice modifying material with the first orientation material to produce a first lattice dimension surface and the second concentration of lattice modifying material the second orientation material to produce a second lattice dimension surface; and forming a first strained semiconducting layer atop the first lattice dimension surface and a second strained semiconducting layer atop the second lattice dimension surface.

    摘要翻译: 本发明提供一种形成半导体衬底的方法,包括以下步骤:提供具有包括第一取向材料的第一器件区域和具有第二取向材料的第二器件区域的初始结构; 在所述第一取向材料的顶部上形成晶格改性材料的第一浓度; 在所述第二取向材料的顶部上形成所述晶格改性材料的第二浓度; 将所述晶格修饰材料的第一浓度与所述第一取向材料混合以产生第一晶格尺寸表面,并且所述第二浓度的晶格修饰材料形成所述第二取向材料以产生第二晶格尺寸表面; 以及在所述第一晶格尺寸表面上方形成第一应变半导体层和在所述第二晶格尺寸表面顶部形成第二应变半导体层。

    Structure and method for manufacturing planar SOI substrate with multiple orientations
    7.
    发明申请
    Structure and method for manufacturing planar SOI substrate with multiple orientations 失效
    用于制造具有多个取向的平面SOI衬底的结构和方法

    公开(公告)号:US20060237790A1

    公开(公告)日:2006-10-26

    申请号:US11473835

    申请日:2006-06-23

    IPC分类号: H01L27/12

    摘要: The present invention provides a method of forming a substantially planar SOI substrate having multiple crystallographic orientations including the steps of providing a multiple orientation surface atop a single orientation layer, the multiple orientation surface comprising a first device region contacting and having a same crystal orientation as the single orientation layer, and a second device region separated from the first device region and the single orientation layer by an insulating material, wherein the first device region and the second device region have different crystal orientations; producing a damaged interface in the single orientation layer; bonding a wafer to the multiple orientation surface; separating the single orientation layer at the damaged interface; wherein a damaged surface of said single orientation layer remains; and planarizing the damaged surface until a surface of the first device region is substantially coplanar to a surface of the second device region.

    摘要翻译: 本发明提供一种形成具有多个结晶取向的基本上平面的SOI衬底的方法,包括以下步骤:在单个取向层的顶部提供多个取向表面,所述多个取向表面包括与第一器件区域接触并具有与 单取向层和通过绝缘材料与第一器件区域和单取向层分离的第二器件区域,其中第一器件区域和第二器件区域具有不同的晶体取向; 在单取向层产生损坏的界面; 将晶片接合到所述多个取向表面; 在损坏的界面处分离单个取向层; 其中所述单取向层的损伤表面保留; 以及平坦化损坏的表面,直到第一器件区域的表面基本上与第二器件区域的表面共面。

    STRUCTURE AND METHOD FOR MANUFACTURING PLANAR SOI SUBSTRATE WITH MULTIPLE ORIENTATIONS
    8.
    发明申请
    STRUCTURE AND METHOD FOR MANUFACTURING PLANAR SOI SUBSTRATE WITH MULTIPLE ORIENTATIONS 失效
    具有多方位制造平面SOI衬底的结构和方法

    公开(公告)号:US20060003554A1

    公开(公告)日:2006-01-05

    申请号:US10710277

    申请日:2004-06-30

    IPC分类号: C30B1/00 H01L21/20 H01L21/36

    摘要: The present invention provides a method of forming a substantially planar SOI substrate having multiple crystallographic orientations including the steps of providing a multiple orientation surface atop a single orientation layer, the multiple orientation surface comprising a first device region contacting and having a same crystal orientation as the single orientation layer, and a second device region separated from the first device region and the single orientation layer by an insulating material, wherein the first device region and the second device region have different crystal orientations; producing a damaged interface in the single orientation layer; bonding a wafer to the multiple orientation surface; separating the single orientation layer at the damaged interface; wherein a damaged surface of said single orientation layer remains; and planarizing the damaged surface until a surface of the first device region is substantially coplanar to a surface of the second device region.

    摘要翻译: 本发明提供一种形成具有多个结晶取向的基本上平面的SOI衬底的方法,包括以下步骤:在单个取向层的顶部提供多个取向表面,所述多个取向表面包括与第一器件区域接触并具有与 单取向层和通过绝缘材料与第一器件区域和单取向层分离的第二器件区域,其中第一器件区域和第二器件区域具有不同的晶体取向; 在单取向层产生损坏的界面; 将晶片接合到所述多个取向表面; 在损坏的界面处分离单个取向层; 其中所述单取向层的损伤表面保留; 以及平坦化损坏的表面,直到第一器件区域的表面基本上与第二器件区域的表面共面。

    Hybrid SOI-Bulk Semiconductor Transistors
    9.
    发明申请
    Hybrid SOI-Bulk Semiconductor Transistors 失效
    混合SOI-体半导体晶体管

    公开(公告)号:US20080090366A1

    公开(公告)日:2008-04-17

    申请号:US11870436

    申请日:2007-10-11

    IPC分类号: H01L21/336

    摘要: Channel depth in a field effect transistor is limited by an intra-layer structure including a discontinuous film or layer formed within a layer or substrate of semiconductor material. Channel depth can thus be controlled much in the manner of SOI or UT-SOI technology but with less expensive substrates and greater flexibility of channel depth control while avoiding floating body effects characteristic of SOI technology. The profile or cross-sectional shape of the discontinuous film may be controlled to an ogee or staircase shape to improve short channel effects and reduce source/drain and extension resistance without increase of capacitance. Materials for the discontinuous film may also be chosen to impose stress on the transistor channel from within the substrate or layer and provide increased levels of such stress to increase carrier mobility. Carrier mobility may be increased in combination with other meritorious effects.

    摘要翻译: 场效应晶体管中的沟道深度由包括在半导体材料的层或衬底内形成的不连续膜或层的层内结构限制。 因此,可以以SOI或UT-SOI技术的方式控制通道深度,但是具有较便宜的衬底和更大的通道深度控制的灵活性,同时避免SOI技术的浮体效应特性。 不连续膜的轮廓或横截面形状可以被控制为奥格或阶梯形状,以改善短通道效应,并且在不增加电容的情况下降低源极/漏极和延伸电阻。 也可以选择用于不连续膜的材料以在衬底或层内从晶体管沟道施加应力,并提供增加的这种应力水平以增加载流子迁移率。 携带者的流动性可能会与其他有利的影响相结合。

    Structure and method of making double-gated self-aligned finfet having gates of different lengths
    10.
    发明申请
    Structure and method of making double-gated self-aligned finfet having gates of different lengths 有权
    制作具有不同长度的门的双门控自对准finfet的结构和方法

    公开(公告)号:US20070181930A1

    公开(公告)日:2007-08-09

    申请号:US10711182

    申请日:2004-08-31

    IPC分类号: H01L27/108

    摘要: A gated semiconductor device is provided, in which the body has a first dimension extending in a lateral direction parallel to a major surface of a substrate, and second dimension extending in a direction at least substantially vertical and at least substantially perpendicular to the major surface, the body having a first side and a second side opposite the first side. The gated semiconductor device includes a first gate overlying the first side, and having a first gate length in the lateral direction. The gated semiconductor device further includes a second gate overlying the second side, the second gate having a second gate length in the lateral direction which is different from, and preferably shorter than the first gate length. In one embodiment, the first gate and the second gate being electrically isolated from each other. In another embodiment the first gate consists essentially of polycrystalline silicon germanium and the second gate consists essentially of polysilicon.

    摘要翻译: 提供了门控半导体器件,其中主体具有在平行于衬底的主表面的横向方向上延伸的第一尺寸,以及在至少基本上垂直且至少基本垂直于主表面的方向上延伸的第二尺寸, 所述主体具有与所述第一侧相对的第一侧和第二侧。 门控半导体器件包括覆盖第一侧的第一栅极,并且在横向上具有第一栅极长度。 门控半导体器件还包括覆盖第二侧的第二栅极,第二栅极在横向上具有不同于第一栅极长度的第二栅极长度,并且优选地短于第一栅极长度。 在一个实施例中,第一栅极和第二栅极彼此电隔离。 在另一个实施例中,第一栅极主要由多晶硅锗组成,第二栅极主要由多晶硅组成。