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    • 1. 发明授权
    • Source arc chamber for ion implanter having repeller electrode mounted to external insulator
    • 用于离子注入机的源弧室,其具有安装到外部绝缘体的排斥电极
    • US07102139B2
    • 2006-09-05
    • US11044659
    • 2005-01-27
    • Russell J. LowEric R. CobbJoseph C. OlsonLeo V. Klos
    • Russell J. LowEric R. CobbJoseph C. OlsonLeo V. Klos
    • H01J7/24
    • H01J27/08
    • An ion implanter has a source arc chamber including a conductive end wall at a repeller end of the arc chamber, the end wall having a central portion surrounding an opening. A ceramic insulator is secured to an outer surface of the end wall, such as by peripheral screw threads engaging mating threads at the periphery of a recessed area of the end wall. A conductive repeller has a narrow shaft secured to the insulator and extending through the end wall opening, and a body disposed within the source arc chamber adjacent to the end wall. The end wall, insulator and repeller are configured to form a continuous vacuum gap between the central portion of the end wall and (i) the repeller body, (ii) the repeller shaft, and (iii) the insulator. The insulator interior surface can have a ridged cross section.
    • 离子注入机具有源电弧室,该电弧室包括在电弧室的排斥端处的导电端壁,端壁具有包围开口的中心部分。 陶瓷绝缘体固定在端壁的外表面上,例如通过外周螺纹与端壁的凹陷区域的周边处的配合螺纹啮合。 导电排斥器具有固定到绝缘体并延伸通过端壁开口的窄轴,以及设置在源弧室内与主体壁相邻的主体。 端壁,绝缘体和推斥器构造成在端壁的中心部分与(i)推斥体之间形成连续的真空间隙,(ii)推斥轴,和(iii)绝缘体。 绝缘体内表面可以具有脊状横截面。
    • 2. 发明授权
    • Technique for improving performance and extending lifetime of indirectly heated cathode ion source
    • 提高间接加热阴极离子源的性能和延长使用寿命的技术
    • US07491947B2
    • 2009-02-17
    • US11505168
    • 2006-08-16
    • Eric R. CobbRussell J. LowCraig R. ChaneyLeo V. Klos
    • Eric R. CobbRussell J. LowCraig R. ChaneyLeo V. Klos
    • H01J27/08
    • H01J37/08H01J37/302H01J37/3171H01J2237/022
    • A technique improving performance and lifetime of indirectly heated cathode ion sources is disclosed. In one particular exemplary embodiment, the technique may be realized as a method for improving performance and lifetime of an indirectly heated cathode (IHC) ion source in an ion implanter. The method may comprise maintaining an arc chamber of the IHC ion source under vacuum during a maintenance of the ion implanter, wherein no gas is supplied to the arc chamber. The method may also comprise heating a cathode of the IHC ion source by supplying a filament with a current. The method may further comprise biasing the cathode with respect to the filament at a current level of 0.5-5 A without biasing the arc chamber with respect to the cathode. The method additionally comprise keeping a source magnet from producing a magnetic field inside the arc chamber.
    • 公开了一种提高间接加热的阴极离子源的性能和寿命的技术。 在一个特定的示例性实施例中,该技术可以被实现为用于改进离子注入机中间接加热的阴极(IHC)离子源的性能和寿命的方法。 该方法可以包括在维护离子注入机期间将IHC离子源的电弧室保持在真空下,其中没有气体被供应到电弧室。 该方法还可以包括通过向灯丝提供电流来加热IHC离子源的阴极。 该方法还可以包括以0.5-5A的电流水平相对于灯丝偏置阴极而不使电弧室相对于阴极偏置。 该方法还包括保持源磁体在电弧室内产生磁场。
    • 5. 发明授权
    • Techniques for controlling a charged particle beam
    • 用于控制带电粒子束的技术
    • US07820986B2
    • 2010-10-26
    • US11854852
    • 2007-09-13
    • Piotr R. LubickiRussell J. LowJoseph C. OlsonAnthony Renau
    • Piotr R. LubickiRussell J. LowJoseph C. OlsonAnthony Renau
    • H01J37/317H05H5/06
    • H01J37/04H01J37/3171H01J2237/04735H01J2237/04756H05H15/00
    • Techniques for controlling a charged particle beam are disclosed. In one particular exemplary embodiment, the techniques may be realized as a charged particle acceleration/deceleration system. The charged particle acceleration/deceleration system may comprise an acceleration column. The acceleration column may comprise a plurality of electrodes having apertures through which a charged particle beam may pass. The charged particle acceleration/deceleration system may also comprise a plurality of resistors electrically coupled to the plurality of electrodes. The charged particle acceleration/deceleration system may further comprise a plurality of switches electrically coupled to the plurality of electrodes and the plurality of resistors, each of the plurality of switches may be configured to be selectively switched respectively in a plurality of operation modes.
    • 公开了用于控制带电粒子束的技术。 在一个特定的示例性实施例中,这些技术可以被实现为带电粒子加速/减速系统。 带电粒子加速/减速系统可以包括加速度列。 加速柱可以包括具有孔的多个电极,带电粒子束可以通过该孔。 带电粒子加速/减速系统还可以包括电耦合到多个电极的多个电阻器。 带电粒子加速/减速系统还可以包括电耦合到多个电极和多个电阻器的多个开关,多个开关中的每一个可被配置为分别以多种操作模式选择性地切换。