会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 2. 发明授权
    • Stable plasma process for etching of films
    • 用于蚀刻膜的稳定等离子体工艺
    • US06399507B1
    • 2002-06-04
    • US09401603
    • 1999-09-22
    • Padmapani NallanJohn HollandValentin TodorovThorsten Lill
    • Padmapani NallanJohn HollandValentin TodorovThorsten Lill
    • H01L21302
    • H01J37/321
    • In accordance with the present invention, process parameters are controlled to provide a stable etch plasma. We have discovered that it is possible to operate a stable plasma with a portion of the power deposited to the plasma being a capacitive contribution and a portion of the power deposited being an inductive contribution. In particular, a stable plasma may be obtained within two process regions. In the first region, the gradient of the capacitive power to the power applied to the inductively coupled source for plasma generation [∂Pcap/∂PRF] is greater than 0. In the second region, plasma stability is controlled so that [∂Pcap/∂PRF] is less than 0 and so that Pcap
    • 根据本发明,控制工艺参数以提供稳定的蚀刻等离子体。 我们已经发现,可以操作稳定的等离子体,其中一部分功率沉积到等离子体是电容性的,并且所沉积的功率的一部分是感应贡献。 特别地,可以在两个工艺区域内获得稳定的等离子体。 在第一区域中,电容性功率对施加到用于等离子体产生的电感耦合源的功率的梯度大于0.在第二区域中,等离子体稳定性受到控制,使得[∂Pcap/ ∠PRF]小于0,因此Pcap << PRF。 通常,Pcap的幅度小于PRF大小的10%。 此外,在具有双功率控制的等离子体处理装置中,在给予对等离子体发生源的功率施加时,通过增加蚀刻处理室中的压力来延长等离子体的稳定性。 这使得能够使用较低功率应用进行等离子体生成的蚀刻工艺。 将稳定的等离子体操作状态覆盖在其它工艺参数上以获得所需的蚀刻结果,以提供可靠的制造工艺。 在稳定等离子体区域中的蚀刻工艺的操作使得能够使用定时蚀刻终点。 例如,在蚀刻含硅层期间,可以使用蚀刻剂等离子体,其在蚀刻工艺的第一定时蚀刻部分期间相对于相邻层提供快速蚀刻和蚀刻选择性,以及在蚀刻过程中的不同蚀刻剂等离子体 最终排放物监测到底层基板界面的蚀刻。 此外,稳定的等离子体以基本上相同的速率帮助蚀刻掺杂和未掺杂的硅和多晶硅衬底,同时提供干净的蚀刻工艺。
    • 4. 发明授权
    • Adjustable dual frequency voltage dividing plasma reactor
    • 可调双频分压等离子体反应堆
    • US06706138B2
    • 2004-03-16
    • US09931324
    • 2001-08-16
    • Michael S. BarnesJohn HollandAlexander PatersonValentin TodorovFarhad Moghadam
    • Michael S. BarnesJohn HollandAlexander PatersonValentin TodorovFarhad Moghadam
    • H01L21306
    • H01J37/3244H01J37/32082
    • Apparatus and method for processing a substrate are provided. The apparatus for processing a substrate comprises: a chamber having a first electrode; a substrate support disposed in the chamber and providing a second electrode; a high frequency power source electrically connected to either the first or the second electrode; a low frequency power source electrically connected to either the first or the second electrode; and a variable impedance element connected to one or more of the electrodes. The variable impedance element may be tuned to control a self bias voltage division between the first electrode and the second electrode. Embodiments of the invention substantially reduce erosion of the electrodes, maintain process uniformity, improve precision of the etch process for forming high aspect ratio sub-quarter-micron interconnect features, and provide an increased etch rate which reduces time and costs of production of integrated circuits.
    • 提供了用于处理基板的设备和方法。 用于处理衬底的设备包括:具有第一电极的腔室; 设置在所述室中并提供第二电极的衬底支撑件; 电连接到第一或第二电极的高频电源; 电连接到第一或第二电极的低频电源; 和连接到一个或多个电极的可变阻抗元件。 可调谐可变阻抗元件以控制第一电极和第二电极之间的自偏压分压。 本发明的实施例大大减少电极的侵蚀,保持工艺均匀性,提高用于形成高纵横比亚微米互连特征的蚀刻工艺的精度,并提供增加的蚀刻速率,从而减少集成电路的生产时间和成本 。
    • 5. 发明授权
    • Apparatus for plasma etching at a constant etch rate
    • 用于以恒定蚀刻速率等离子体蚀刻的装置
    • US06660127B2
    • 2003-12-09
    • US10075223
    • 2002-02-12
    • Padmapani NallanJohn HollandValentin TodorovThorsten Lill
    • Padmapani NallanJohn HollandValentin TodorovThorsten Lill
    • C23C1600
    • H01J37/321
    • We have discovered a method which permits plasma etching at a constant etch rate. The constant etch rate is achieved by controlling plasma process parameters so that a stable plasma is obtained, with a portion of the power deposited to the plasma being a capacitive contribution, and a portion being an inductive contribution. In particular, a stable plasma may be obtained within two process regions. In the first region, the gradient of the capacitive power to the power applied to the inductively coupled source for plasma generation [∂Pcap/∂PRF] is greater than 0. In the second region, plasma stability is controlled so that [∂Pcap/∂PRF] is less than 0 and so that Pcap
    • 我们已经发现了以恒定的蚀刻速率允许等离子体蚀刻的方法。 通过控制等离子体工艺参数来实现恒定的蚀刻速率,从而获得稳定的等离子体,其中沉积到等离子体的功率的一部分是电容性贡献,并且部分是归纳贡献。 特别地,可以在两个工艺区域内获得稳定的等离子体。 在第一区域中,电容性功率对施加到用于等离子体产生的电感耦合源的功率的梯度大于0.在第二区域中,等离子体稳定性受到控制,使得[∂Pcap/ ∠PRF]小于0,因此Pcap << PRF。 通常,Pcap的幅度小于PRF大小的10%。 在稳定等离子体区域中的蚀刻工艺的操作使得能够使用定时蚀刻终点。
    • 10. 发明授权
    • Inductively coupled plasma source with controllable power deposition
    • 具有可控功率沉积的电感耦合等离子体源
    • US06507155B1
    • 2003-01-14
    • US09544377
    • 2000-04-06
    • Michael BarnesJohn HollandValentin Todorov
    • Michael BarnesJohn HollandValentin Todorov
    • H01J724
    • H01J37/32174H01J37/321
    • Method and apparatus for distributing power from a single power source to a plurality of coils disposed on a processing chamber which provides controllable plasma uniformity across a substrate disposed in the processing chamber. The apparatus for distributing power from a power source to two or more coils disposed on a process chamber comprises a connection between the power source and a first coil, a series capacitor connected between the power source and the second coil, and a shunt capacitor connected to a node between the second coil and the power source. The method for distributing power from one power source to a plurality of coils comprises connecting a first coil between the power source and a ground connection, connecting a first power distribution network to the power source, wherein each power distribution network comprises a series capacitor and a shunt capacitor, and connecting a second coil between the first power distribution network and a ground connection.
    • 用于将功率从单个电源分配到设置在处理室上的多个线圈的方法和装置,其在布置在处理室中的衬底上提供可控的等离子体均匀性。 用于从电源将功率分配到设置在处理室上的两个或更多个线圈的装置包括电源和第一线圈之间的连接,连接在电源和第二线圈之间的串联电容器以及连接到 第二线圈和电源之间的节点。 用于从一个电源向多个线圈分配电力的方法包括将电源和接地连接之间的第一线圈连接,将第一配电网络连接到电源,其中每个配电网络包括串联电容器和 并联电容器,并且在第一配电网络和接地连接之间连接第二线圈。