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    • 2. 发明申请
    • TUNNELING EFFECT TRANSISTOR WITH SELF-ALIGNED GATE
    • 具有自对准门的隧道效应晶体管
    • US20090026491A1
    • 2009-01-29
    • US11828740
    • 2007-07-26
    • Roger A. Booth, JR.Kangguo ChengJack A. Mandelman
    • Roger A. Booth, JR.Kangguo ChengJack A. Mandelman
    • H01L29/70H01L21/33
    • H01L29/7391H01L23/485H01L29/66356Y10S438/926Y10S438/979
    • In one embodiment, a mandrel and an outer dummy spacer may be employed to form a first conductivity type region. The mandrel is removed to form a recessed region wherein a second conductivity type region is formed. In another embodiment, a mandrel is removed from within shallow trench isolation to form a recessed region, in which an inner dummy spacer is formed. A first conductivity type region and a second conductivity region are formed within the remainder of the recessed region. An anneal is performed so that the first conductivity type region and the second conductivity type region abut each other by diffusion. A gate electrode is formed in self-alignment to the p-n junction between the first and second conductivity regions. The p-n junction controlled by the gate electrode, which may be sublithographic, constitutes an inventive tunneling effect transistor.
    • 在一个实施例中,可以使用心轴和外部虚拟间隔件来形成第一导电类型区域。 去除心轴以形成其中形成第二导电类型区域的凹陷区域。 在另一个实施例中,心轴从浅沟槽隔离中移除以形成凹陷区域,其中形成内部虚拟间隔物。 第一导电类型区域和第二导电区域形成在凹陷区域的其余部分内。 进行退火,使得第一导电类型区域和第二导电类型区域通过扩散彼此邻接。 栅电极形成为与第一和第二导电区域之间的p-n结自对准。 由栅电极控制的可能是亚光刻的p-n结构成本发明的隧道效应晶体管。
    • 3. 发明申请
    • TRENCH ANTI-FUSE STRUCTURES FOR A PROGRAMMABLE INTEGRATED CIRCUIT
    • 用于可编程集成电路的抗融合结构
    • US20100230781A1
    • 2010-09-16
    • US12537473
    • 2009-08-07
    • Roger A. Booth, JR.Kangguo ChengJack A. MandelmanWilliam R. Tonti
    • Roger A. Booth, JR.Kangguo ChengJack A. MandelmanWilliam R. Tonti
    • H01L23/525H01L21/768
    • H01L23/5252H01L2924/0002H01L2924/00
    • Trench anti-fuse structures, design structures embodied in a machine readable medium for designing, manufacturing, or testing a programmable integrated circuit. The anti-fuse structure includes a trench having a plurality of sidewalls that extend into a substrate, a doped region in the semiconductor material of the substrate proximate to the sidewalls of the trench, a conductive plug in the trench, and a dielectric layer on the sidewalls of the trench. The dielectric layer is disposed between the conductive plug and the doped region. The dielectric layer is configured so that a programming voltage applied between the doped region and the conductive plug causes a breakdown of the dielectric layer within a region of the trench. The trench sidewalls are arranged with a cross-sectional geometrical shape that is independent of position between a bottom wall of the deep trench and a top surface of the substrate.
    • 沟槽反熔丝结构,设计结构体现在用于设计,制造或测试可编程集成电路的机器可读介质中。 反熔丝结构包括具有延伸到衬底中的多个侧壁的沟槽,靠近沟槽侧壁的衬底的半导体材料中的掺杂区域,沟槽中的导电插塞以及沟槽中的介电层 沟槽的侧壁。 电介质层设置在导电插塞和掺杂区域之间。 电介质层被配置为使得施加在掺杂区域和导电插塞之间的编程电压导致沟槽区域内的电介质层的击穿。 沟槽侧壁布置成具有与深沟槽的底壁和基板的顶表面之间的位置无关的横截面几何形状。
    • 5. 发明申请
    • POLYSILICON RESISTOR AND E-FUSE FOR INTEGRATION WITH METAL GATE AND HIGH-K DIELECTRIC
    • 用于与金属栅和高K电介质集成的多晶硅电阻器和电子熔断器
    • US20110215321A1
    • 2011-09-08
    • US12719289
    • 2010-03-08
    • Roger A. Booth, JR.Kangguo ChengRainer LoesingChengwen PeiXiaojun Yu
    • Roger A. Booth, JR.Kangguo ChengRainer LoesingChengwen PeiXiaojun Yu
    • H01L29/12H01L21/02H01L21/768H01L29/86H01L23/525
    • H01L21/02H01L21/768H01L23/525H01L29/12H01L29/86H01L2924/0002H01L2924/00
    • A method is provided for making a resistive polycrystalline semiconductor device, e.g., a poly resistor of a microelectronic element such as a semiconductor integrated circuit. The method can include: (a) forming a layered stack including a dielectric layer contacting a surface of a monocrystalline semiconductor region of a substrate, a metal gate layer overlying the dielectric layer, a first polycrystalline semiconductor region adjacent the metal gate layer having a predominant dopant type of either n or p, and a second polycrystalline semiconductor region spaced from the metal gate layer by the first polycrystalline semiconductor region and adjoining the first polycrystalline semiconductor region; and (b) forming first and second contacts in conductive communication with the second polycrystalline semiconductor region, the first and second contacts being spaced apart so as to achieve a desired resistance. In a variation thereof, an electrical fuse is formed which includes a continuous silicide region through which a current can be passed to blow the fuse. Some of the steps of fabricating the poly resistor or the electrical fuse can be employed simultaneously in fabricating metal gate field effect transistors (FETs) on the same substrate.
    • 提供了一种用于制造电阻性多晶半导体器件的方法,例如诸如半导体集成电路的微电子元件的多晶硅电阻器。 该方法可以包括:(a)形成层叠堆叠,其包括与衬底的单晶半导体区域的表面接触的电介质层,覆盖在电介质层上的金属栅极层,与金属栅极层相邻的第一多晶半导体区域, 掺杂剂类型的n或p,以及第二多晶半导体区域,其与所述第一多晶半导体区域与所述金属栅极层隔开并邻接所述第一多晶半导体区域; 和(b)形成与所述第二多晶半导体区域导电连通的第一和第二触点,所述第一和第二触点间隔开以达到期望的电阻。 在其变型中,形成电熔丝,其包括连续的硅化物区域,电流可以通过该硅化物区域通过以熔断熔丝。 在同一衬底上制造金属栅极场效应晶体管(FET)的同时可以同时采用制造多晶硅电阻器或电熔丝的步骤。
    • 6. 发明申请
    • SHALLOW TRENCH CAPACITOR COMPATIBLE WITH HIGH-K / METAL GATE
    • 与高K /金属闸门兼容的低压电容器
    • US20090242953A1
    • 2009-10-01
    • US12059174
    • 2008-03-31
    • Roger A. Booth, JR.MaryJane BrodskyKangguo ChengChengwen Pei
    • Roger A. Booth, JR.MaryJane BrodskyKangguo ChengChengwen Pei
    • H01L27/108H01L21/8242G06F17/50
    • H01L27/0629
    • Forming a shallow trench capacitor in conjunction with an FET by forming a plurality of STI trenches; for the FET, implanting a first cell well having a first polarity between a first and a second of the STI trenches; for the capacitor, implanting a second cell well having a second polarity in an area of a third of the STI trenches; removing dielectric material from the third STI trench; forming a gate stack having a first portion located between the first and the second of the STI trenches and a second portion located over and extending into the third trench; and performing a source/drain implant of the same polarity as the second cell well, thereby forming a FET in the first cell well, and a capacitor in the second cell well. The second polarity may be opposite from the first polarity. An additional implant may reduce ESR in the second cell well.
    • 通过形成多个STI沟槽与FET结合形成浅沟槽电容器; 对于FET,在第一和第二STI沟槽之间注入具有第一极性的第一单元阱; 对于电容器,在第三个STI沟槽的区域中注入具有第二极性的第二单元阱; 从第三STI沟槽去除电介质材料; 形成具有位于所述STI沟槽的所述第一和第二STI沟槽之间的第一部分和位于所述第三沟槽中并延伸到所述第三沟槽中的第二部分的栅极堆叠; 并且执行与第二单元阱相同极性的源极/漏极注入,从而在第一单元阱中形成FET,以及在第二单元阱中形成电容器。 第二极性可以与第一极性相反。 额外的植入物可以减少第二细胞中的ESR。