Self-aligned cross point resistor memory array
    1.
    发明授权
    Self-aligned cross point resistor memory array 有权
    自对准交叉点电阻存储器阵列

    公开(公告)号:US07323349B2

    公开(公告)日:2008-01-29

    申请号:US11120385

    申请日:2005-05-02

    IPC分类号: H01L21/00 H01L21/8242

    摘要: A method of fabricating resistor memory array includes preparing a silicon substrate; depositing a bottom electrode, a sacrificial layer, and a hard mask layer on a substrate P+ layer; masking, patterning and etching to remove, in a first direction, a portion of the hard mask, the sacrificial material, the bottom electrode; depositing a layer of silicon oxide; masking, patterning and etching to remove, in a second direction perpendicular to the first direction, a portion of the hard mask, the sacrificial material, the bottom electrode;, and over etching to an N+ layer and at least 100 nm of the silicon substrate; depositing of a layer of silicon oxide; etching to remove any remaining hard mask and any remaining sacrificial material; depositing a layer of CMR material; depositing a top electrode; applying photoresist, patterning the photoresist and etching the top electrode; and incorporating the memory array into an integrated circuit.

    摘要翻译: 制造电阻器存储器阵列的方法包括制备硅衬底; 在衬底P +层上沉积底部电极,牺牲层和硬掩模层; 掩模,图案化和蚀刻以在第一方向上去除硬掩模,牺牲材料,底部电极的一部分; 沉积一层氧化硅; 掩模,图案化和蚀刻以在垂直于第一方向的第二方向上去除硬掩模,牺牲材料,底部电极的一部分,并且对N +层和至少100nm的硅衬底进行过蚀刻 ; 沉积一层氧化硅; 蚀刻以除去任何剩余的硬掩模和任何剩余的牺牲材料; 沉积一层CMR材料; 沉积顶部电极; 施加光致抗蚀剂,图案化光致抗蚀剂并蚀刻顶部电极; 并将存储器阵列并入集成电路中。

    Germanium phototransistor with floating body
    3.
    发明授权
    Germanium phototransistor with floating body 有权
    具有浮体的锗光电晶体管

    公开(公告)号:US07675056B2

    公开(公告)日:2010-03-09

    申请号:US11891574

    申请日:2007-08-10

    摘要: A floating body germanium (Ge) phototransistor and associated fabrication process are presented. The method includes: providing a silicon (Si) substrate; selectively forming an insulator layer overlying the Si substrate; forming an epitaxial Ge layer overlying the insulator layer using a liquid phase epitaxy (LPE) process; forming a channel region in the Ge layer; forming a gate dielectric, gate electrode, and gate spacers overlying the channel region; and, forming source/drain regions in the Ge layer. The LPE process involves encapsulating the Ge with materials having a melting temperature greater than a first temperature, and melting the Ge using a temperature lower than the first temperature. The LPE process includes: forming a dielectric layer overlying deposited Ge; melting the Ge; and, in response to cooling the Ge, laterally propagating an epitaxial growth front into the Ge from an underlying Si substrate surface.

    摘要翻译: 提出了一种浮体锗(Ge)光电晶体管及其制造工艺。 该方法包括:提供硅(Si)衬底; 选择性地形成覆盖Si衬底的绝缘体层; 使用液相外延(LPE)工艺形成覆盖绝缘体层的外延Ge层; 在Ge层中形成沟道区; 形成覆盖所述沟道区的栅极电介质,栅电极和栅极间隔; 并且在Ge层中形成源/漏区。 LPE工艺包括用具有大于第一温度的熔化温度的材料包封Ge,并且使用低于第一温度的温度来熔化Ge。 LPE工艺包括:形成覆盖沉积Ge的介电层; 融化Ge; 并且响应于冷却Ge,将外延生长前沿从下面的Si衬底表面横向传播到Ge中。

    Floating body germanium phototransistor having a photo absorption threshold bias region
    4.
    发明授权
    Floating body germanium phototransistor having a photo absorption threshold bias region 有权
    具有光吸收阈值偏置区域的浮体锗光电晶体管

    公开(公告)号:US07351995B2

    公开(公告)日:2008-04-01

    申请号:US11894938

    申请日:2007-08-22

    CPC分类号: H01L31/1136

    摘要: A floating body germanium (Ge) phototransistor with a photo absorption threshold bias region, and an associated fabrication process are presented. The method includes: providing a p-doped Silicon (Si) substrate; selectively forming an insulator layer overlying a first surface of the Si substrate; forming an epitaxial Ge layer overlying the insulator layer; forming a channel region in the Ge layer; forming a gate dielectric, gate electrode, and gate spacers; forming source/drain (S/D) regions in the Ge layer; and, forming a photo absorption threshold bias region in the Ge layer, adjacent the channel region. In one aspect, the second S/D region has a length, longer than the first S/D length. The photo absorption threshold bias region underlies the second S/D region. Alternately, the second S/D region is separated from the channel by an offset, and the photo absorption threshold bias region is the offset in the Ge layer, after a light p-doping.

    摘要翻译: 提出了具有光吸收阈值偏置区域的浮体锗(Ge)光电晶体管,以及相关的制造工艺。 该方法包括:提供p掺杂硅(Si)衬底; 选择性地形成覆盖在所述Si衬底的第一表面上的绝缘体层; 形成覆盖绝缘体层的外延Ge层; 在Ge层中形成沟道区; 形成栅极电介质,栅电极和栅极间隔物; 在Ge层中形成源极/漏极(S / D)区域; 并且在Ge层中形成邻近沟道区的光吸收阈值偏置区域。 在一个方面,第二S / D区域具有比第一S / D长度更长的长度。 光吸收阈值偏置区域位于第二S / D区域的下方。 或者,第二S / D区域与沟道分离偏移,光吸收阈值偏置区域是在光p掺杂之后的Ge层中的偏移。

    Molecular hydrogen implantation method for forming a relaxed silicon germanium layer with high germanium content
    5.
    发明授权
    Molecular hydrogen implantation method for forming a relaxed silicon germanium layer with high germanium content 失效
    用于形成具有高锗含量的松弛硅锗层的分子氢注入方法

    公开(公告)号:US06562703B1

    公开(公告)日:2003-05-13

    申请号:US10099374

    申请日:2002-03-13

    IPC分类号: H01L21265

    摘要: A method is provided for forming a relaxed silicon germanium layer with a high germanium content on a silicon substrate. The method comprises: depositing a single-crystal silicon (Si) buffer layer overlying the silicon substrate; depositing a layer of single-crystal silicon germanium (Si1−xGex) overlying the Si buffer layer having a thickness of 1000 to 5000 Å; implanting the Si1−xGex layer with ionized molecular hydrogen (H2+) a projected range of approximately 100 to 300 Å into the underlying Si buffer layer; optionally, implanting the Si1−xGex layer with a species selected such as boron, He, or Si; annealing; and, in response to the annealing, converting the Si1−xGex layer to a relaxed Si1−xGex layer. Optionally, after annealing, an additional layer of single-crystal Si1−xGex having a thickness of greater than 1000 Å can be deposited overlying the relaxed layer of Si1−xGex.

    摘要翻译: 提供了一种在硅衬底上形成具有高锗含量的松弛硅锗层的方法。 该方法包括:沉积覆盖硅衬底的单晶硅(Si)缓冲层; 沉积覆盖厚度为1000至5000的Si缓冲层的单晶硅锗层(Si1-xGex); 将具有离子化分子氢(H 2 +)的Si 1-x Ge x层投射到下面的Si缓冲层中约100至300埃的投影范围; 任选地,将Si1-xGex层用诸如硼,氦或硅的物质进行注入; 退火; 并且响应于退火,将Si1-xGex层转化为弛豫的Si1-xGex层。 任选地,在退火之后,可以沉积厚度大于的附加层的单晶Si1-xGex覆盖在Si1-xGex的松弛层上。

    Method of fabricating a low, dark-current germanium-on-silicon pin photo detector
    6.
    发明授权
    Method of fabricating a low, dark-current germanium-on-silicon pin photo detector 有权
    制造低,暗电流硅 - 硅引脚光电探测器的方法

    公开(公告)号:US07811913B2

    公开(公告)日:2010-10-12

    申请号:US11312967

    申请日:2005-12-19

    IPC分类号: H01L21/265

    摘要: A method of fabricating a low, dark-current germanium-on-silicon PIN photo detector includes preparing a P-type silicon wafer; implanting the P-type silicon wafer with boron ions; activating the boron ions to form a P+ region on the silicon wafer; forming a boron-doped germanium layer on the P+ silicon surface; depositing an intrinsic germanium layer on the boron-doped germanium layer; cyclic annealing, including a relatively high temperature first anneal step and a relatively low temperature second anneal step; repeating the first and second anneal steps for about twenty cycles, thereby forcing crystal defects to the P+ germanium layer; implanting ions in the surface of germanium layer to form an N+ germanium surface layer and a PIN diode; activating the N+ germanium surface layer by thermal anneal; and completing device according to known techniques to form a low dark-current germanium-on-silicon PIN photodetector.

    摘要翻译: 制造低,暗电流锗硅PIN光检测器的方法包括制备P型硅晶片; 用硼离子注入P型硅晶片; 激活硼离子以在硅晶片上形成P +区; 在P +硅表面上形成硼掺杂锗层; 在硼掺杂的锗层上沉积本征锗层; 循环退火,包括相对高温的第一退火步骤和相对低温的第二退火步骤; 重复第一和第二退火步骤约20个循环,由此迫使晶体缺陷到P +锗层; 在锗层表面注入离子以形成N +锗表面层和PIN二极管; 通过热退火来活化N +锗表面层; 并根据已知技术完成器件以形成低暗电流锗硅PIN光电探测器。

    Ge short wavelength infrared imager
    7.
    发明授权
    Ge short wavelength infrared imager 有权
    Ge短波长红外成像仪

    公开(公告)号:US07651880B2

    公开(公告)日:2010-01-26

    申请号:US11592465

    申请日:2006-11-04

    IPC分类号: H01L25/00

    摘要: A germanium (Ge) short wavelength infrared (SWIR) imager and associated fabrication process are provided. The imager comprises a silicon (Si) substrate with doped wells. An array of pin diodes is formed in a relaxed Ge-containing film overlying the Si substrate, each pin diode having a flip-chip interface. There is a Ge/Si interface, and a doped Ge-containing buffer interposed between the Ge-containing film and the Ge/Si interface. An array of Si CMOS readout circuits is bonded to the flip-chip interfaces. Each readout circuit has a zero volt diode bias interface.

    摘要翻译: 提供锗(Ge)短波长红外(SWIR)成像器和相关制造工艺。 该成像器包括具有掺杂阱的硅(Si)衬底。 在位于Si衬底上的松弛的含Ge膜中形成一个pin二极管阵列,每个pin二极管具有倒装芯片接口。 存在Ge / Si界面和插入含Ge膜和Ge / Si界面之间的含掺杂Ge的缓冲层。 Si CMOS读出电路阵列结合到倒装芯片接口。 每个读出电路都具有零伏二极管偏置接口。

    Method of making CMOS devices on strained silicon on glass
    9.
    发明授权
    Method of making CMOS devices on strained silicon on glass 失效
    在玻璃上的应变硅上制造CMOS器件的方法

    公开(公告)号:US07470573B2

    公开(公告)日:2008-12-30

    申请号:US11060878

    申请日:2005-02-18

    IPC分类号: H01L21/30 H01L21/84

    摘要: A method of making CMOS devices on strained silicon on glass includes preparing a glass substrate, including forming a strained silicon layer on the glass substrate; forming a silicon oxide layer by plasma oxidation of the strained silicon layer; depositing a layer of doped polysilicon on the silicon oxide layer; forming a polysilicon gate; implanting ions to form a LDD structure; depositing and forming a spacer dielectric on the gate structure; implanting and activation ions to form source and drain structures; depositing a layer of metal film; annealing the layer of metal film to form salicide on the source, drain and gate structures; removing any unreacted metal film; depositing a layer of interlayer dielectric; and forming contact holes and metallizing.

    摘要翻译: 在玻璃上的应变硅上制造CMOS器件的方法包括制备玻璃衬底,包括在玻璃衬底上形成应变硅层; 通过应变硅层的等离子体氧化形成氧化硅层; 在氧化硅层上沉积掺杂多晶硅层; 形成多晶硅栅极; 注入离子以形成LDD结构; 在栅极结构上沉积和形成间隔电介质; 植入和激活离子以形成源和漏结构; 沉积一层金属膜; 退火金属膜层,在源极,漏极和栅极结构上形成硅化物; 去除任何未反应的金属膜; 沉积层间电介质层; 并形成接触孔和金属化。

    Method for isolating silicon germanium dislocation regions in strained-silicon CMOS applications
    10.
    发明授权
    Method for isolating silicon germanium dislocation regions in strained-silicon CMOS applications 有权
    在应变硅CMOS应用中分离硅锗位错区的方法

    公开(公告)号:US07384837B2

    公开(公告)日:2008-06-10

    申请号:US11073185

    申请日:2005-03-03

    IPC分类号: H01L21/8238

    摘要: A dual gate strained-Si MOSFET with thin SiGe dislocation regions and a method for fabricating the same are provided. The method forms a first layer of relaxed SiGe overlying a substrate, having a thickness of less than 5000 Å; forms a second layer of relaxed SiGe overlying the substrate and adjacent to the first layer of SiGe, having a thickness of less than 5000 Å; forms a layer of strained-Si overlying the first and second SiGe layers; forms a shallow trench isolation region interposed between the first SiGe layer and the second SiGe layer; forms an p-well in the substrate and the overlying first layer of SiGe; forming forms a p-well in the substrate and the overlying second layer of SiGe; forms channel regions, in the strained-Si, and forms PMOS and NMOS transistor source and drain regions.

    摘要翻译: 提供具有薄SiGe位错区域的双栅应变Si MOSFET及其制造方法。 该方法形成覆盖衬底的第一层松弛SiGe,厚度小于5000; 形成覆盖衬底并且邻近第一SiGe层的第二层松弛SiGe,其厚度小于5000; 形成层叠在第一和第二SiGe层上的应变层; 形成介于第一SiGe层和第二SiGe层之间的浅沟槽隔离区; 在衬底和SiGe的上覆第一层中形成p阱; 在衬底和SiGe的上覆第二层中形成p阱; 在应变Si中形成沟道区,并形成PMOS和NMOS晶体管的源极和漏极区。