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    • 1. 发明授权
    • Electrostatic chuck with advanced RF and temperature uniformity
    • 静电卡盘具有先进的射频和温度均匀性
    • US08937800B2
    • 2015-01-20
    • US13867515
    • 2013-04-22
    • Dmitry LubomirskyJennifer Y. SunMark MarkovskyKonstantin MakhratchevDouglas A. Buchberger, Jr.Samer Banna
    • Dmitry LubomirskyJennifer Y. SunMark MarkovskyKonstantin MakhratchevDouglas A. Buchberger, Jr.Samer Banna
    • H02N13/00H01L21/67
    • H02N13/00H01L21/67103
    • Electrostatic chucks (ESCs) with RF and temperature uniformity are described. For example, an ESC includes a top dielectric layer. An upper metal portion is disposed below the top dielectric layer. A second dielectric layer is disposed above a plurality of pixilated resistive heaters and surrounded in part by the upper metal portion. A third dielectric layer is disposed below the second dielectric layer, with a boundary between the third dielectric layer and the second dielectric layer. A plurality of vias is disposed in the third dielectric layer. A bus power bar distribution layer is disposed below and coupled to the plurality of vias. A fourth dielectric layer is disposed below the bus bar power distribution layer, with a boundary between the fourth dielectric layer and the third dielectric layer. A metal base is disposed below the fourth dielectric layer. The metal base includes a plurality of high power heater elements housed therein.
    • 描述了具有RF和温度均匀性的静电卡盘(ESCs)。 例如,ESC包括顶部电介质层。 上部金属部分设置在顶部电介质层的下方。 第二电介质层设置在多个像素化电阻加热器的上方,并且被上部金属部分部分地包围。 第三电介质层设置在第二电介质层的下方,第三介电层和第二电介质层之间具有边界。 多个通孔设置在第三电介质层中。 总线功率棒分布层设置在多个通孔的下方并耦合到多个通孔。 第四电介质层设置在母线功率分配层的下方,第四电介质层和第三电介质层之间具有边界。 金属基底设置在第四电介质层的下方。 金属基座包括容纳在其中的多个高功率加热器元件。
    • 6. 发明授权
    • Flowable dielectric equipment and processes
    • 可流动介质设备和工艺
    • US08357435B2
    • 2013-01-22
    • US12210982
    • 2008-09-15
    • Dmitry LubomirskyQiwei LiangJang Gyoo Yang
    • Dmitry LubomirskyQiwei LiangJang Gyoo Yang
    • H05H1/24C23C16/00
    • B08B7/00C23C16/4405C23C16/452C23C16/45514C23C16/509H01J37/32449
    • Methods of depositing and curing a dielectric material on a substrate are described. The methods may include the steps of providing a processing chamber partitioned into a first plasma region and a second plasma region, and delivering the substrate to the processing chamber, where the substrate occupies a portion of the second plasma region. The methods may further include forming a first plasma in the first plasma region, where the first plasma does not directly contact with the substrate, and depositing the dielectric material on the substrate to form a dielectric layer. One or more reactants excited by the first plasma are used in the deposition of the dielectric material. The methods may additional include curing the dielectric layer by forming a second plasma in the second plasma region, where one or more carbon-containing species is removed from the dielectric layer.
    • 描述了在衬底上沉积和固化电介质材料的方法。 该方法可以包括以下步骤:提供分隔成第一等离子体区域和第二等离子体区域的处理室,以及将衬底输送到处理室,其中衬底占据第二等离子体区域的一部分。 所述方法可以进一步包括在第一等离子体区域中形成第一等离子体,其中第一等离子体不直接与衬底接触,并将电介质材料沉积在衬底上以形成电介质层。 在电介质材料的沉积中使用由第一等离子体激发的一种或多种反应物。 所述方法可以包括通过在第二等离子体区域中形成第二等离子体来固化介电层,其中从电介质层去除一个或多个含碳物质。
    • 10. 发明授权
    • Method of making an electrostatic chuck with reduced plasma penetration and arcing
    • 制造具有降低的等离子体穿透和电弧放电的静电卡盘的方法
    • US08108981B2
    • 2012-02-07
    • US11888327
    • 2007-07-31
    • Dmitry LubomirskyKadthala Ramaya NarendranathXinglong ChenSudhir GondhalekarMuhammad RasheedTony Kaushal
    • Dmitry LubomirskyKadthala Ramaya NarendranathXinglong ChenSudhir GondhalekarMuhammad RasheedTony Kaushal
    • B23P17/00
    • H02N13/00H01L21/6833Y10T29/49117Y10T29/49885
    • A method of making an electrostatic chuck comprising positioning a plate into a channel in a body to form a plenum and inserting a dielectric component into an opening in the plate, where the dielectric component defines a portion of a passage from the plenum. Thereafter, depositing a dielectric layer covering at least a portion of the body and at least a portion of the plate to form a support surface. The dielectric layer is polished to a specified thickness. In one embodiment, the polishing process forms an opening through the dielectric layer to enable the dielectric component to define a passage between the support surface and the plenum. In another embodiment, at least a portion of the dielectric layer is porous proximate the dielectric component such that the porous dielectric layer and the dielectric component form a passage between the support surface and the plenum. In a further embodiment, a hole is formed through the dielectric layer and the hole in the dielectric layer and the dielectric component form a passage between the support surface and the plenum.
    • 一种制造静电卡盘的方法,包括将板定位在主体中的通道中以形成气室,并将电介质部件插入板中的开口中,其中介电部件限定了来自气室的通道的一部分。 此后,沉积覆盖主体的至少一部分和板的至少一部分以形成支撑表面的电介质层。 将电介质层抛光至规定的厚度。 在一个实施例中,抛光工艺形成通过介电层的开口,以使得介质部件能够在支撑表面和集气室之间限定通道。 在另一个实施例中,电介质层的至少一部分在绝缘元件附近是多孔的,使得多孔介电层和电介质元件在支撑表面和增压室之间形成通道。 在另一实施例中,穿过电介质层形成孔,并且电介质层中的孔和电介质元件在支撑表面和气室之间形成通道。