Multi-track magnetron exhibiting more uniform deposition and reduced rotational asymmetry
    1.
    发明申请
    Multi-track magnetron exhibiting more uniform deposition and reduced rotational asymmetry 有权
    多轨磁控管具有更均匀的沉积和减小的旋转不对称性

    公开(公告)号:US20060144703A1

    公开(公告)日:2006-07-06

    申请号:US11029641

    申请日:2005-01-05

    IPC分类号: C23C14/00

    CPC分类号: H01J37/3408 H01J37/3405

    摘要: A multi-track magnetron having a convolute shape and asymmetric about the target center about which it rotates. A plasma track is formed as a closed loop between opposed inner and outer magnetic poles, preferably as two or three radially arranged and spirally shaped counter-propagating tracks with respect to the target center and preferably passing over the rotation axis. The pole shape may be optimized to produce a cumulative track length distribution conforming to the function L=arn. After several iterations of computerized optimization, the pole shape may be tested for sputtering uniformity with different distributions of magnets in the fabricated pole pieces. If the uniformity remains unsatisfactory, the design iteration is repeated with a different n value, different number of tracks, or different pole widths. The optimization reduces azimuthal sidewall asymmetry and improves radial deposition uniformity.

    摘要翻译: 具有卷绕形状且围绕其旋转的目标中心不对称的多轨磁控管。 等离子体轨道形成为相对的内部和外部磁极之间的闭合回路,优选地相对于目标中心并且优选地通过旋转轴线而形成为两个或三个径向布置且螺旋形的反向传播轨迹。 极点形状可以被优化以产生符合函数L = ar 的累积轨迹长度分布。 经过数次迭代的计算机化优化,可以测试极点形状,使其在制造的极片中具有不同的磁体分布的溅射均匀性。 如果均匀性不能令人满意,则使用不同的n值,不同数量的轨道或不同的极宽重复设计迭代。 优化可减少方位角侧壁不对称性,提高径向沉积均匀性。

    Multi-track magnetron exhibiting more uniform deposition and reduced rotational asymmetry
    2.
    发明授权
    Multi-track magnetron exhibiting more uniform deposition and reduced rotational asymmetry 有权
    多轨磁控管具有更均匀的沉积和减小的旋转不对称性

    公开(公告)号:US07186319B2

    公开(公告)日:2007-03-06

    申请号:US11029641

    申请日:2005-01-05

    IPC分类号: C23C14/35

    CPC分类号: H01J37/3408 H01J37/3405

    摘要: A multi-track magnetron having a convolute shape and asymmetric about the target center about which it rotates. A plasma track is formed as a closed loop between opposed inner and outer magnetic poles, preferably as two or three radially arranged and spirally shaped counter-propagating tracks with respect to the target center and preferably passing over the rotation axis. The pole shape may be optimized to produce a cumulative track length distribution conforming to the function L=arn. After several iterations of computerized optimization, the pole shape may be tested for sputtering uniformity with different distributions of magnets in the fabricated pole pieces. If the uniformity remains unsatisfactory, the design iteration is repeated with a different n value, different number of tracks, or different pole widths. The optimization reduces azimuthal sidewall asymmetry and improves radial deposition uniformity.

    摘要翻译: 具有卷绕形状且围绕其旋转的目标中心不对称的多轨磁控管。 等离子体轨道形成为相对的内部和外部磁极之间的闭合回路,优选地相对于目标中心并且优选地通过旋转轴线而形成为两个或三个径向布置且螺旋形的反向传播轨迹。 极点形状可以被优化以产生符合函数L = ar 的累积轨迹长度分布。 经过数次迭代的计算机化优化,可以测试极点形状,使其在制造的极片中具有不同的磁体分布的溅射均匀性。 如果均匀性不能令人满意,则使用不同的n值,不同数量的轨道或不同的极宽重复设计迭代。 优化可减少方位角侧壁不对称性,提高径向沉积均匀性。