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    • 1. 发明授权
    • STI CMP under polish monitoring
    • STI CMP在抛光监测下
    • US08852968B2
    • 2014-10-07
    • US13768870
    • 2013-02-15
    • Liang LiZheng ZouHuang LiuAlex See
    • Liang LiZheng ZouHuang LiuAlex See
    • H01L21/66
    • H01L22/12G01B2210/56
    • Methods of deducing oxide thickness using calculated and measured scattering spectra are provided. Embodiments include depositing an oxide over a semiconductor wafer, reducing the oxide from a portion of the semiconductor wafer, and deducing a thickness of oxide remaining at a location within the portion using scatterometric metrology. Embodiments further include deducing the thickness by: calculating scattering spectra for a plurality of oxide thicknesses, producing calculated scattering spectra, monitoring scattering spectra at the location within the portion of the semiconductor wafer, comparing the monitored scattering spectra at the location to the calculated scattering spectra, determining a closest matching calculated scattering spectra to the monitored scattering spectra at the location, and obtaining an oxide thickness corresponding to the closest matching calculated scattering spectra.
    • 提供了使用计算和测量的散射光谱推导氧化物厚度的方法。 实施例包括在半导体晶片上沉积氧化物,从半导体晶片的一部分还原氧化物,并使用散射测量法推算残留在该部分内部的氧化物的厚度。 实施例还包括通过以下方式推导厚度:计算多个氧化物厚度的散射光谱,产生计算的散射光谱,监测半导体晶片部分内的位置处的散射光谱,将该位置处的所监视的散射光谱与计算出的散射光谱进行比较 确定与所述位置处的所监视的散射光谱最接近的匹配计算的散射光谱,以及获得对应于最接近的匹配计算的散射光谱的氧化物厚度。
    • 8. 发明授权
    • Process flow for a performance enhanced MOSFET with self-aligned, recessed channel
    • 具有自对准凹陷通道的性能增强型MOSFET的工艺流程
    • US07091092B2
    • 2006-08-15
    • US10062227
    • 2002-02-05
    • Sneedharan Pillai SneelalFrancis PohJames LeeAlex SeeC. K. LauGanesh Shankar Samudra
    • Sneedharan Pillai SneelalFrancis PohJames LeeAlex SeeC. K. LauGanesh Shankar Samudra
    • H01L21/336
    • H01L29/66621H01L29/66545H01L29/7834
    • A method for forming a self-aligned, recessed channel, MOSFET device that alleviates problems due to short channel and hot carrier effects while reducing inter-electrode capacitance is described. A thin pad oxide layer is grown overlying the substrate and a gate recess, followed by deposition of a thick silicon nitride layer filling the gate recess. The top surface is planarized exposing the pad oxide layer. An additional oxide layer is grown, thickening the pad oxide layer. A portion of the silicon nitride layer is etched away and additional oxide layer is again grown. This forms a tapered oxide layer along the sidewalls of the gate recess. The remaining silicon nitride layer is removed. The oxide layer at the bottom of the gate recess is removed and a gate dielectric layer is grown. Gate polysilicon is deposited filling the gate recess. S/D implantations, metallization, and passivation complete fabrication of the device.
    • 描述了一种用于形成自对准凹槽的MOSFET器件的方法,该MOSFET器件在减少电极间电容的同时减轻由短沟道和热载流子效应导致的问题。 生长覆盖衬底和栅极凹槽的薄衬垫氧化物层,随后沉积填充栅极凹槽的厚氮化硅层。 平坦化顶表面暴露氧化垫层。 生长另外的氧化物层,使衬垫氧化物层变厚。 蚀刻掉氮化硅层的一部分,再次生长另外的氧化物层。 这沿着栅极凹槽的侧壁形成锥形氧化物层。 剩余的氮化硅层被去除。 除去栅极凹部底部的氧化物层,生长栅极电介质层。 栅极多晶硅沉积填充栅极凹槽。 S / D注入,金属化和钝化完整的器件制造。
    • 10. 发明授权
    • Method of fabricating self-aligned metal barriers by atomic layer deposition on the copper layer
    • 通过原子层沉积在铜层上制造自对准金属屏障的方法
    • US06905964B2
    • 2005-06-14
    • US10339185
    • 2003-01-09
    • Boon Kiat LimAlex See
    • Boon Kiat LimAlex See
    • H01L21/285H01L21/44H01L21/4763H01L21/768
    • H01L21/76849H01L21/28562
    • An improved and new process for fabricating self-aligned metal barriers by atomic layer deposition, ALD, capable of producing extremely thin, uniform, and conformal metal barrier films, selectively depositing on copper, not on silicon dioxide interlevel dielectric, in multi-layer dual damascene trench/via processing. Silicon nitride is presently used as a insulating copper barrier. However, silicon nitride has a relatively high dielectric constraint, which deteriorates ICs with increased RC delay. Copper metal barriers of niobium and tantalum have been deposited by atomic layer deposition on copper. With high deposition selectivity, the barrier metal is only deposited over copper, not on silicon dioxide, which eliminates the need of an insulating barrier of silicon nitride.
    • 一种通过原子层沉积制造自对准金属屏障的改进和新工艺,ALD能够生产极薄,均匀和保形的金属阻挡膜,选择性地沉积在铜上,而不是在二氧化硅层间电介质上沉积在多层双层 大马士革沟/通孔加工。 氮化硅目前被用作绝缘铜屏障。 然而,氮化硅具有相对较高的介电约束,其使具有增加的RC延迟的IC劣化。 铌和钽的铜金属屏障已经通过原子层沉积沉积在铜上。 具有高的沉积选择性,阻挡金属仅沉积在铜上,而不是在二氧化硅上沉积,这消除了氮化硅的绝缘势垒的需要。