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    • 6. 发明授权
    • Light bath for particle suppression
    • 光浴抑制粒子
    • US09583308B1
    • 2017-02-28
    • US14837610
    • 2015-08-27
    • Varian Semiconductor Equipment Associates, Inc.
    • William Davis Lee
    • H01J37/317H01J37/08H01J37/147
    • H01J37/08H01J37/05H01J37/1472H01J37/3171H01J2237/053H01J2237/0815H01J2237/31701H01J2237/31705
    • An apparatus, referred to as a light bath, is disposed in a beamline ion implantation system and is used to photoionize particles in the ion beam into positively charged particles. Once positively charged, these particles can be manipulated by the various components in the beamline ion implantation system. In certain embodiments, a positively biased electrode is disposed downstream from the light bath to repel the formerly non-positively charged particles away from the workpiece. In certain embodiments, the light bath is disposed within an existing component in the beamline ion implantation system, such as a deceleration stage or a Vertical Electrostatic Energy Filter. The light source emits light at a wavelength sufficiently short so as to ionize the non-positively charged particles. In certain embodiments, the wavelength is less than 250 nm.
    • 称为光浴的装置设置在束线离子注入系统中,用于将离子束中的颗粒光电离成带正电的颗粒。 一旦带正电,这些颗粒可以通过束线离子注入系统中的各种组分来操纵。 在某些实施例中,正偏置的电极设置在光浴的下游,以将以前不带正电的颗粒排斥离开工件。 在某些实施例中,光浴设置在束线离子注入系统中的现有部件内,例如减速阶段或垂直静电能量过滤器。 光源以足够短的波长发射光,以使非正电荷的粒子离子化。 在某些实施方案中,波长小于250nm。
    • 8. 发明授权
    • Ion source with independent power supplies
    • 离子源带独立电源
    • US09214313B2
    • 2015-12-15
    • US13082983
    • 2011-04-08
    • Joseph M. Matesa, Jr.Paul E. Fischione
    • Joseph M. Matesa, Jr.Paul E. Fischione
    • H01J1/50H01J37/08H01J27/04H01J37/305
    • H01J37/08H01J27/04H01J37/3056H01J2237/061H01J2237/0815
    • An ion source is disclosed which utilizes independently powered electrodes that are isolated with a series of insulators. The ion source comprises an anode electrode with a hollow interior, where the anode is disposed between a cathode and an anti-cathode. A magnet or electro-magnet imposes a magnetic field in an axial direction through the bore of the anode. Gas is introduced into the anode area at a controllable pressure. The ion source includes a first voltage differential between the anode and cathode for the production of plasma and a second voltage differential between the anode and the anti-cathode for extraction of ions from the plasma, forming an ion beam, which is preferably of a narrow diameter at low beam energy. In particular, the voltage differential between the anti-cathode and anode is adjusted to control the initial beam divergence of extracted ions. An optional focus electrode with an independent power supply further focuses the ion beam. A final electrode defines the output boundary of the ion source to provide un-perturbed drift of the ions into the vacuum chamber.
    • 公开了一种离子源,其利用与一系列绝缘体隔离的独立供电的电极。 离子源包括具有中空内部的阳极电极,其中阳极设置在阴极和反阴极之间。 磁体或电磁铁通过阳极的孔沿轴向施加磁场。 气体以可控的压力被引入阳极区域。 离子源包括用于产生等离子体的阳极和阴极之间的第一电压差和用于从等离子体提取离子的阳极和反阴极之间的第二电压差,形成离子束,其优选地为窄 直径在低光束能量。 特别地,调整反阴极和阳极之间的电压差以控制提取的离子的初始光束发散。 具有独立电源的可选聚焦电极进一步聚焦离子束。 最终电极定义了离子源的输出边界,以提供离子到真空室中的无扰动漂移。