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    • 2. 发明授权
    • Plasma reactor with dynamic RF inductive and capacitive coupling control
    • 具有动态RF感应和电容耦合控制的等离子体电抗器
    • US06447636B1
    • 2002-09-10
    • US09505578
    • 2000-02-16
    • Xue-Yu QianZhi-Wen SunMaocheng LiJohn HollandArthur H. SatoValentin N. TodorovPatrick L. LeaheyRobert E. Ryan
    • Xue-Yu QianZhi-Wen SunMaocheng LiJohn HollandArthur H. SatoValentin N. TodorovPatrick L. LeaheyRobert E. Ryan
    • H05H100
    • H01J37/32009H01J37/32082H01J37/3299H05H1/46
    • The invention provides a system and a method for dynamic RF inductive and capacitive coupling control to improve plasma substrate processing, as well as for achieving contamination and defect reduction. A plasma reactor includes a substrate support disposed in a chamber. An RF coil is disposed adjacent the chamber for inductively coupling RF energy into the chamber. An electrode is disposed adjacent the chamber and has a voltage for capacitively coupling energy into the chamber. The electrode is spaced from the substrate support and the RF coil. An electrode adjusting member is coupled with the electrode for dynamically adjusting the voltage in the electrode to vary the capacitive coupling for improved plasma ignition and plasma stability. A Faraday shield may be placed between the RF coil and the plasma process region in the chamber to suppress capacitive coupling of the RF coil. Sensors may be provided to monitor the amounts of inductive coupling and capacitive coupling to provide feedback to a controller which is used to adjust the inductive coupling and capacitive coupling in real time to stabilize the plasma and achieve improved processing.
    • 本发明提供了用于动态RF感应和电容耦合控制以改善等离子体基板处理以及实现污染和缺陷减少的系统和方法。 等离子体反应器包括设置在室中的基板支撑件。 射频线圈邻近该腔室设置,用于将射频能量感应耦合到腔室中。 电极邻近该腔室设置并且具有用于将能量电容耦合到腔室中的电压。 电极与衬底支架和RF线圈间隔开。 电极调节构件与电极耦合以动态地调节电极中的电压,以改变电容耦合以改善等离子体点火和等离子体稳定性。 法拉第屏蔽可以放置在RF线圈和腔室中的等离子体处理区域之间,以抑制RF线圈的电容耦合。 可以提供传感器来监测电感耦合和电容耦合的量以向控制器提供反馈,该控制器用于实时调整电感耦合和电容耦合以稳定等离子体并实现改进的处理。
    • 4. 发明授权
    • Method of micromachining a multi-part cavity
    • 微加工多部分腔体的方法
    • US06827869B2
    • 2004-12-07
    • US10194167
    • 2002-07-11
    • Dragan PodlesnikThorsten LillJeff ChinnShaoher X. PanAnisul KhanMaocheng LiYiqiong Wang
    • Dragan PodlesnikThorsten LillJeff ChinnShaoher X. PanAnisul KhanMaocheng LiYiqiong Wang
    • H01L21302
    • H01L27/1087B81B2201/052B81B2203/0315B81B2203/033B81C1/00119B81C2201/016H01L21/3065H01L21/3086
    • The present disclosure pertains to our discovery of a particularly efficient method for etching a multi-part cavity in a substrate. The method provides for first etching a shaped opening, depositing a protective layer over at least a portion of the inner surface of the shaped opening, and then etching a shaped cavity directly beneath and in continuous communication with the shaped opening. The protective layer protects the etch profile of the shaped opening during etching of the shaped cavity, so that the shaped opening and the shaped cavity can be etched to have different shapes, if desired. In particular embodiments of the method of the invention, lateral etch barrier layers and/or implanted etch stops are also used to direct the etching process. The method of the invention can be applied to any application where it is necessary or desirable to provide a shaped opening and an underlying shaped cavity having varying shapes. The method is also useful whenever it is necessary to maintain tight control over the dimensions of the shaped opening.
    • 本公开涉及我们发现用于蚀刻衬底中的多部分空腔的特别有效的方法。 该方法提供了首先蚀刻成形开口,在成形开口的内表面的至少一部分上沉积保护层,然后直接在成形开口下面蚀刻成形腔,并与成形开口连续连通。 保护层在蚀刻成形腔体期间保护成形开口的蚀刻轮廓,从而如果需要,成形开口和成形腔体可以被蚀刻以具有不同的形状。 在本发明方法的特定实施例中,横向蚀刻阻挡层和/或注入的蚀刻停止点也用于引导蚀刻工艺。 本发明的方法可以应用于需要或期望提供具有不同形状的成形开口和下面的成形腔的任何应用。 只要需要对成形开口的尺寸进行严格控制,该方法也是有用的。