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    • 1. 发明申请
    • Slot array antenna and plasma processing apparatus
    • 插槽阵列天线和等离子体处理装置
    • US20060158381A1
    • 2006-07-20
    • US11378223
    • 2006-03-16
    • Nobuo IshiiMakoto AndoMasaharu Takahashi
    • Nobuo IshiiMakoto AndoMasaharu Takahashi
    • H01Q13/10
    • H01Q21/005
    • A slot array antenna, comprising: a power-feeding waveguide for feeding microwave power; and a plurality of rectangular radiating waveguides connected to a plurality of windows which are disposed along the longitudinal direction of the power feeding waveguide, so as to guide the microwave power from the plurality of windows to the outside of the antenna. In each of the radiating waveguides, the interval “d” between the centers of gravity of slot pairs or slots is substantially the same as the wavelength m of the microwave in the rectangular radiating waveguide. A slot array antenna and a plasma processing apparatus are provided, which are capable of increasing the plasma density in the plasma-processing chamber.
    • 一种插槽阵列天线,包括:用于馈送微波功率的馈电波导; 以及多个矩形辐射波导,其连接到沿着所述馈电波导的纵向设置的多个窗口,以将微波功率从多个窗口引导到天线的外部。 在每个辐射波导中,槽对或槽之间的重心之间的间隔“d”与矩形辐射波导中的微波的波长m基本相同。 提供了一种槽阵列天线和等离子体处理装置,其能够增加等离子体处理室中的等离子体密度。
    • 4. 发明授权
    • Slot array antenna and plasma processing apparatus
    • 插槽阵列天线和等离子体处理装置
    • US07023393B2
    • 2006-04-04
    • US10693912
    • 2003-10-28
    • Nobuo IshiiMakoto AndoMasaharu Takahashi
    • Nobuo IshiiMakoto AndoMasaharu Takahashi
    • H01Q13/10
    • H01Q21/005
    • A slot array antenna, consistent with the invention can include a power feeding waveguide for feeding microwave power and a plurality of rectangular radiating waveguides. The plurality of rectangular radiating waveguides are connected to a plurality of windows which are disposed along the longitudinal direction of the power feeding waveguide so as to guide the microwave power from the plurality of windows to the outside of the antenna. In each of the radiating waveguides, the interval “d” between the centers of gravity of slot pairs or slots is substantially the same as the wavelength λm of the microwave in the rectangular radiating waveguide. A slot array antenna of the present invention can be used in a plasma processing apparatus to increase the plasma density in the plasma-processing chamber.
    • 根据本发明的缝隙阵列天线可以包括用于馈送微波功率的馈电波导和多个矩形辐射波导。 多个矩形辐射波导连接到沿着馈电波导的纵向设置的多个窗口,以将微波功率从多个窗口引导到天线的外部。 在每个辐射波导中,时隙对或时隙的重心之间的间隔“d”与矩形辐射波导中的微波的波长大致相同。 本发明的槽阵列天线可用于等离子体处理装置中,以增加等离子体处理室中的等离子体密度。
    • 5. 发明授权
    • Plasma processing method and apparatus
    • 等离子体处理方法和装置
    • US06311638B1
    • 2001-11-06
    • US09500520
    • 2000-02-09
    • Nobuo IshiiYasuyoshi YasakaMakoto AndoNaohisa Goto
    • Nobuo IshiiYasuyoshi YasakaMakoto AndoNaohisa Goto
    • C23C1600
    • H01J37/32266C23C16/511H01J37/32174H01J37/3299
    • A plasma processing apparatus has a vacuum vessel, a high-frequency power generator that generates a high-frequency wave, a waveguide for propagating the high-frequency wave generated by the high-frequency power generator into the vacuum vessel to produce a plasma by ionizing a processing gas supplied into the vacuum vessel and to process a semiconductor wafer supported on a support table in the vacuum vessel. A reflection coefficient measuring unit 5 is combined with a waveguide 35 to take data on a ratio &Ggr;0 of advancing wave from the high-frequency power generator 4 and reflected wave from the plasma and phase &thgr; of reflection coefficient. Factors dominating the electron density of the plasma including the output power of the microwave power generator are controlled on the basis of the measured data, whereby the electron density is controlled and stable processing is ensured.
    • 等离子体处理装置具有真空容器,产生高频波的高频发电机,将由高频发电机产生的高频波传播到真空容器中的波导,通过电离产生等离子体 供应到真空容器中并处理支撑在真空容器中的支撑台上的半导体晶片的处理气体。 反射系数测量单元5与波导35组合以获取来自高频发生器4的前进波的比率&Ggr; 0的数据和来自反射系数的等离子体和相位θ的反射波的数据。 基于测量数据控制包括微波功率发生器的输出功率的等离子体的电子密度的因素,由此控制电子密度并确保稳定的处理。
    • 7. 发明授权
    • Plasma processing apparatus and plasma processing method
    • 等离子体处理装置和等离子体处理方法
    • US06528752B1
    • 2003-03-04
    • US09595476
    • 2000-06-16
    • Nobuo IshiiYasuyoshi YasakaMakoto AndoNaohisa Goto
    • Nobuo IshiiYasuyoshi YasakaMakoto AndoNaohisa Goto
    • B23K1000
    • H01J37/321H01J37/32082H01J37/32568
    • A plasma-assisted processing system has a lifting mechanism capable of vertically moving a microwave power unit and a waveguide to adjust the level of a planar slot antenna disposed on an expanded lower end part of the waveguide. A space extending under the antenna is surrounded by a shielding member. An optical sensor having an array of photosensors is disposed on the outer side of a window formed in the side wall of a vacuum vessel to monitor the lower limit level of a cease region for a plasma (cease level). An ideal distance between the cease level and the antenna is determined beforehand and the level of the antenna is adjusted on the basis of a measured cease level so that the antenna is spaced the ideal distance apart from the cease level. Since the difference between the cease level and a level X0 for the cutoff density of an X-wave is fixed, the level X0 may be monitored instead of the cease level.
    • 等离子体辅助处理系统具有能够垂直移动微波功率单元和波导的升降机构,以调节布置在波导的扩展的下端部的平面缝隙天线的高度。 在天线下方延伸的空间被屏蔽构件包围。 具有光电传感器阵列的光学传感器设置在形成在真空容器的侧壁中的窗口的外侧上,以监测等离子体的停止区域的下限水平(停止水平)。 预先确定停止电平和天线之间的理想距离,并且基于测量的停止电平来调节天线的电平,使得天线与停止电平相隔一段理想距离。 由于X波的截止密度的停止电平和电平X0之间的差是固定的,因此可以监视电平X 0而不是停止电平。
    • 8. 发明授权
    • Plasma treatment system
    • 等离子体处理系统
    • US06322662B1
    • 2001-11-27
    • US09494031
    • 2000-01-31
    • Nobuo IshiiYasuo KobayashiTamotsu MorimotoMakoto AndoNaohisa Goto
    • Nobuo IshiiYasuo KobayashiTamotsu MorimotoMakoto AndoNaohisa Goto
    • H05H100
    • H01J37/32211H01J37/32192H05H1/46
    • In a plasma treatment system, the increase of the electric field of a treatment space facing the central portion of a flat antenna member is relieved, and the ununiformity of the density of plasma in a plasma forming region is relieved. Microwave generated by a microwave generator 50 are supplied from a waveguide 52 to a flat antenna member 44. The flat antenna member 44 has a plurality of slots 60. The space between adjacent two of the slots 60 is longer than the guide wavelength of microwaves in the waveguide 52, and the length of each of the slots 60 is shorter than half of the guide wavelength. The slots 60 are arranged in a region other than the central portion of the flat antenna member 44 so as not to be axisymmetric.
    • 在等离子体处理系统中,减轻了面向平坦天线构件的中心部分的处理空间的电场的增加,等离子体形成区域中的等离子体的密度不均匀被缓解。微波发生器产生的微波 50由波导52供给到平面天线构件44.平坦天线构件44具有多个槽60.相邻的两个槽60之间的空间比波导52中的微波的引导波长长, 每个槽60的长度短于导向波长的一半。 狭槽60布置在平坦天线构件44的除中心部分之外的区域中以便不是轴对称的。
    • 10. 发明授权
    • Plasma-assisted processing system and plasma-assisted processing method
    • 等离子体辅助加工系统和等离子体辅助加工方法
    • US06646224B2
    • 2003-11-11
    • US10356639
    • 2003-02-03
    • Nobuo IshiiYasuyoshi YasakaMakoto AndoNaohisa Goto
    • Nobuo IshiiYasuyoshi YasakaMakoto AndoNaohisa Goto
    • B23K1000
    • H01J37/321H01J37/32082H01J37/32568
    • A plasma-assisted processing system has a lifting mechanism capable of vertically moving a microwave power unit and a waveguide to adjust the level of a planar slot antenna disposed on an expanded lower end part of the waveguide. A space extending under the antenna is surrounded by a shielding member. An optical sensor having an array of photosensors is disposed on the outer side of a window formed in the side wall of a vacuum vessel to monitor the lower limit level of a cease region for a plasma (cease level). An ideal distance between the cease level and the antenna is determined beforehand and the level of the antenna is adjusted on the basis of a measured cease level so that the antenna is spaced the ideal distance apart from the cease level. Since the difference between the cease level and a level X0 for the cutoff density of an X-wave is fixed, the level X0 may be monitored instead of the cease level.
    • 等离子体辅助处理系统具有能够垂直移动微波功率单元和波导的升降机构,以调节布置在波导的扩展的下端部的平面缝隙天线的高度。 在天线下方延伸的空间被屏蔽构件包围。 具有光电传感器阵列的光学传感器设置在形成在真空容器的侧壁中的窗口的外侧上,以监测等离子体的停止区域的下限水平(停止水平)。 预先确定停止电平和天线之间的理想距离,并且基于测量的停止电平来调节天线的电平,使得天线与停止电平相隔一段理想距离。 由于X波的截止密度的停止电平和电平X0之间的差是固定的,因此可以监视电平X 0而不是停止电平。