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    • 1. 发明申请
    • PLASMA PROCESSING APPARATUS
    • 等离子体加工设备
    • US20080170969A1
    • 2008-07-17
    • US11680118
    • 2007-02-28
    • Ken YoshiokaYutaka OmotoMamoru YakushijiTsunehiko TsuboneKazunori Nakamoto
    • Ken YoshiokaYutaka OmotoMamoru YakushijiTsunehiko TsuboneKazunori Nakamoto
    • G05D23/00
    • H01L21/6831G05D23/1932G05D23/22H01L21/67109H01L21/67276
    • It is possible to provide a plasma etching apparatus that controls the temperature of a sample at a higher speed and with more accuracy to improve the efficiency of processing the sample. A plasma processing apparatus includes a processing chamber to be depressurized and exhausted, a sample placement electrode provided in the processing chamber and having a sample placement surface on which a substrate to be processed is placed, an electromagnetic generation device to generate plasma in the processing chamber, a supply system that supplies processing gas to the processing chamber, a vacuum exhaust system that exhausts inside the processing chamber, a heater layer and a base temperature monitor that are disposed on the sample placement electrode, a wafer temperature estimating unit that estimates a wafer temperature from the base temperature monitor and plasma forming power supply, and a controller that regulates the heater corresponding to output from the temperature estimating unit.
    • 可以提供一种等离子体蚀刻装置,其以更高的速度和更高的精度来控制样品的温度,以提高样品的处理效率。 一种等离子体处理装置,其特征在于,包括要被减压和排出的处理室,设置在处理室中并具有放置有待处理基板的样品放置面的样品放置电极,在处理室中产生等离子体的电磁产生装置 向处理室供给处理气体的供给系统,在处理室内排出的真空排气系统,设置在样本设置电极上的加热器层和基底温度监视器,估计晶片的晶片温度估计单元 来自基础温度监视器和等离子体形成电源的温度,以及根据来自温度估计单元的输出来调节加热器的控制器。
    • 10. 发明授权
    • Plasma treating method and apparatus therefor
    • 等离子体处理方法及其设备
    • US4943361A
    • 1990-07-24
    • US289512
    • 1988-12-27
    • Yutaka KakehiYutaka OmotoTakeshi Harada
    • Yutaka KakehiYutaka OmotoTakeshi Harada
    • H01L21/302H01J37/32H01L21/3065
    • H01J37/32082H01J37/32623H01J37/3266
    • The present invention relates to a plasma treating method and apparatus therefor, wherein a plasma treating method is carried out in which an electric field is generated between the electrodes of parallel plate electrodes (anode and cathode), and a magnetic field starting from the anode side, toward the cathode side, the other of said parallel plate electrodes, and back to the anode side, is used. The magnetic field has relatively short lines of magnetic force where it orthogonally intersects the electric field, near the cathode, as compared to that of lines of magnetic force parallel to the electric field, so as to make a cycloidal motion of electrons restricted and to cause mainly a cyclotronic motion of electrons to occur in large quantities. A power supply is connected to the cathode, one of said parallel plate electrodes, and a magnetic field generating means is provided on the anode side, the other of said parallel plate electrodes, at the counter-cathode side thereof, the said magnetic field generating means having NS poles in proximity to each other to provide the previously discussed magnetic lines of force, so as to make the cycloidal motion of electrons restricted and to cause the cyclotronic motion of electrons to occur in large quantities. By use of such method and apparatus, it is made possible to facilitate a treatment of a specimen at a high rate and uniformly without damaging the specimen.
    • 等离子体处理方法及其设备技术领域本发明涉及一种等离子体处理方法及其设备,其中进行在平行板电极(阳极和阴极)的电极之间产生电场的等离子体处理方法和从阳极侧开始的磁场 ,朝向阴极侧,使用另一个所述平行板电极,并且返回到阳极侧。 与平行于电场的磁力线相比,磁场具有相对短的磁力线,其与阴极附近的电场正交相交,从而使电子的摆线运动受到限制,并导致 主要是电子发生大量的自旋运动。 电源连接到阴极,所述平行板电极之一和磁场产生装置设置在阳极侧,另一个平行板电极在其反向阴极侧产生所述磁场产生 意味着具有彼此接近的NS极以提供先前讨论的磁力线,以便使电子的摆线运动受到限制并且引起电子的大量循环运动。 通过使用这种方法和装置,能够以高速率和均匀的方式促进样品的处理,而不会损害试样。