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    • 4. 发明授权
    • Method and apparatus for forming a dielectric film using helium as a carrier gas
    • 使用氦气作为载气形成电介质膜的方法和装置
    • US06599574B1
    • 2003-07-29
    • US08627631
    • 1996-04-04
    • Ellie YiehPaul GeeLi-Qun XiaFrancimar CampanaShankar VenkatarananDana TribulaBang Nguyen
    • Ellie YiehPaul GeeLi-Qun XiaFrancimar CampanaShankar VenkatarananDana TribulaBang Nguyen
    • C23C1600
    • H01L21/02129C23C16/401H01L21/02271H01L21/02274H01L21/31625Y10S438/905Y10S438/906
    • The present invention relates to the deposition of dielectric layers, and more specifically to a method and apparatus for forming dielectric layers such as borophosphosilicate glass (BPSG) having improved film uniformity, higher deposition rate, superior gap fill/reflow capability, and smoother surface morphology. The method forms a dielectric layer with a process using helium carrier gas that produces substantially less downstream residue than conventional methods and apparatus, thereby reducing the need for chamber cleaning and increasing throughput of processed wafers. The present invention utilizes helium instead of nitrogen as carrier gas in a process for forming a dielectric layer such as BPSG to provide various unexpected benefits. According to one aspect, the present invention forms a dielectric film on a substrate, and prolongs a period between chamber cleanings in a system by using helium which produces substantially less downstream and upstream residue than a process using nitrogen. The method includes introducing a process gas containing silicon, oxygen, and first dopant atoms into the chamber; using helium as the carrier gas in the system; and processing more substrates between cleanings than a process using nitrogen as carrier gas. A further aspect of the invention includes annealing the dielectric films formed on the substrates at a lower temperature than required by the process using nitrogen as carrier gas.
    • 本发明涉及电介质层的沉积,更具体地涉及一种用于形成介电层的方法和装置,例如具有改进的膜均匀性,较高沉积速率,优异的间隙填充/回流能力和更平滑的表面形态的硼磷硅酸盐玻璃(BPSG) 。 该方法形成具有使用氦载气的方法的电介质层,其产生比常规方法和设备基本上更少的下游残留物,从而减少对室清洁的需要并增加处理的晶片的生产量。 本发明在形成诸如BPSG的介电层的工艺中使用氦代替氮作为载气,以提供各种意想不到的好处。 根据一个方面,本发明在衬底上形成介电膜,并且通过使用产生比使用氮的方法显着更少的下游和上游残留物的氦来延长系统中的室清洁之间的时间。 该方法包括将含有硅,氧和第一掺杂剂原子的工艺气体引入室中; 使用氦气作为系统中的载气; 并且在清洗之前处理比使用氮气作为载气的工艺更多的衬底。 本发明的另一方面包括在比使用氮作为载气的方法所要求的温度更低的温度下退火形成在基板上的电介质膜。
    • 5. 发明授权
    • Method of reducing undesired etching of insulation due to elevated boron concentrations
    • 由于硼浓度升高而减少不必要的绝缘蚀刻的方法
    • US06426015B1
    • 2002-07-30
    • US09461504
    • 1999-12-14
    • Li-Qun XiaFrancimar CampanaEllie Yieh
    • Li-Qun XiaFrancimar CampanaEllie Yieh
    • B44C122
    • H01L21/02129H01L21/02271H01L21/31051H01L21/31116H01L21/31625
    • A method is provided for reducing elevated boron concentrations (denoted as “boron spikes”) in an insulating layer containing silicon, boron and other elements where the layer interfaces with surfaces of a semiconductor device. The method includes the steps of: seasoning a reaction chamber by flowing into it a mixture of gasses containing silicon, boron, ozone and other elements in predetermined proportions under set conditions of time, pressure, temperature and flow rates to deposit on inner walls and surfaces of the chamber a thin seasoning coating, and placing a semiconductor device in the chamber and covering it with an insulating layer having a composition similar to the seasoning coating. Subsequent etching of selected portions of the insulating layer has been found not to expose conductive surfaces of the device.
    • 提供了一种用于降低含有硅,硼和其它元素的绝缘层中升高的硼浓度(表示为“硼尖峰”)的方法,其中层与半导体器件的表面接合。 该方法包括以下步骤:在时间,压力,温度和流速的设定条件下,以预定比例将含有硅,硼,臭氧和其它元素的气体混合物流入反应室中以沉积在内壁和表面上 的腔室是薄的调味涂层,并且将半导体器件放置在腔室中并用具有类似于调味涂层的组成的绝缘层覆盖。 发现绝缘层的选定部分的后续蚀刻不暴露器件的导电表面。
    • 7. 发明授权
    • Method for depositing and planarizing fluorinated BPSG films
    • 氟化BPSG膜的沉积和平面化方法
    • US06261975B1
    • 2001-07-17
    • US09262782
    • 1999-03-04
    • Li-Qun XiaFrancimar CampanaEllie Yieh
    • Li-Qun XiaFrancimar CampanaEllie Yieh
    • H01L2131
    • H01L21/02131C23C16/401C23C16/56H01L21/02271H01L21/02304H01L21/0234H01L21/02362H01L21/31051H01L21/31625H01L21/31629
    • A method for improving the reflow characteristics of a BPSG film. According to the method, a fluorine- or other halogen-doped BPSG layer is deposited over a substrate and reflowed using a rapid thermal pulse (RTP) method. The use of such an RTP reflow method results in superior reflow characteristics as compared to a 20-40 minute conventional furnace reflow process. The inventors discovered that reflowing FBPSG films in a conventional furnace may result in the highly mobile fluorine atoms diffusing from the film prior to completion of the anneal. Thus, the FBPSG layer loses the improved reflow characteristics provided by the incorporation of fluorine into the film. The RTP reflow reflows the film in a minimal amount of time (e.g., 10-90 seconds depending on the temperature used to reflow the layer and the degree of planarization required among other factors). Thus, the fluorine atoms within the FBPSG layer do not have sufficient time to migrate from the layer even if the layer is deposited over a PETEOS oxide or similar layer.
    • 一种改善BPSG膜的回流特性的方法。 根据该方法,将氟或其它卤素掺杂的BPSG层沉积在衬底上并使用快速热脉冲(RTP)方法回流。 与20-40分钟的常规炉回流工艺相比,使用这种RTP回流方法导致优异的回流特性。 本发明人发现,在常规炉中回流FBPSG膜可能导致高度可移动的氟原子在退火完成之前从膜扩散。 因此,FBPSG层失去了通过将氟结合到膜中而提供的改进的回流特性。 RTP回流以最小的时间(例如10-90秒,取决于用于回流层的温度和其他因素所需的平坦化程度)来回流薄膜。 因此,即使该层沉积在PETEOS氧化物或类似层上,FBPSG层内的氟原子也不具有从该层迁移的足够时间。