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    • 7. 发明授权
    • Cold electron plasma reactive ion etching using a rotating
electromagnetic filter
    • 使用旋转电磁滤波器的冷电子等离子体反应离子蚀刻
    • US6028394A
    • 2000-02-22
    • US47095
    • 1998-03-24
    • John H. KellerDennis K. Coultas
    • John H. KellerDennis K. Coultas
    • H01L21/302H01J37/32H01L21/3065H05H1/46
    • H01J37/321H01J37/3266H01J37/32678
    • An apparatus and method for producing a cold electron plasma for etching a work piece. An electromagnetic wave is generated at a first frequency to produce a plasma in a hot plasma region of the etching chamber, the plasma having positive ions, cold electrons, and hot electrons. A plurality of magnetic coils are disposed about the perimeter of the etching chamber for generating a rotating magnetic field with an electron cyclotron resonance at a second frequency. The rotating magnetic field has a magnetic potential such that the rotating magnetic field: (i) allows the positive ions and the cold electrons to diffuse from the plasma through the rotating magnetic field to produce the cold electron plasma in a cold plasma region over the work piece, and (ii) inhibits the hot electrons from the plasma from diffusing through the rotating magnetic field to the cold electron plasma.
    • 一种用于制造用于蚀刻工件的冷电子等离子体的装置和方法。 在第一频率产生电磁波,以在蚀刻室的热等离子体区域产生等离子体,等离子体具有正离子,冷电子和热电子。 围绕蚀刻室的周边设置多个磁性线圈,用于产生具有第二频率的电子回旋共振的旋转磁场。 旋转磁场具有磁电势,使得旋转磁场:(i)允许正离子和冷电子从等离子体扩散通过旋转磁场,以在工作中的冷等离子体区域中产生冷电子等离子体 并且(ii)抑制来自等离子体的热电子通过旋转磁场扩散到冷电子等离子体。
    • 9. 发明授权
    • Apparatus and method of producing a negative ion plasma
    • 负离子等离子体的制造方法
    • US6051151A
    • 2000-04-18
    • US968194
    • 1997-11-12
    • John H. KellerDennis K. Coultas
    • John H. KellerDennis K. Coultas
    • H01J37/32H05H1/46H05H1/00
    • H01J37/321H01J37/3266H01J37/32706H05H1/46
    • An apparatus and method of producing a negative ion plasma for use in manufacturing of microelectronic devices, particularly etching of microelectronic patterns in semiconductor wafers. A negative ion plasma is produced from a hot electron plasma formed by a RF or UHF plasma source. The negative ion plasma includes positive ions, negative ions and relatively cold electrons, such electrons having an effective electron temperature or average energies less than that for maintaining the plasma. The fields producing the hot plasma are isolated from the negative ion plasma in a cold plasma region by a magnetic filter. The magnetic filter confines the plasmas to provide plasma uniformity at a work piece being etched by the negative ion plasma. The magnetic filter further prevents hot electrons originating in the hot electron plasma from diffusing into the negative ion plasma, while allowing positive ions and cold electrons to diffuse from the hot plasma to the negative ion plasma. An RF bias on the work piece accelerates the positive ions, electrons and/or negative ions to the work piece being etched.
    • 一种用于制造微电子器件的负离子等离子体的设备和方法,特别是在半导体晶片中蚀刻微电子图案。 由RF或UHF等离子体源形成的热电子等离子体产生负离子等离子体。 负离子等离子体包括正离子,负离子和相对冷的电子,这样的电子具有比维持等离子体的电子的有效电子温度或平均能量小的电子。 通过磁性过滤器在冷等离子体区域中产生热等离子体的场与负离子等离子体隔离。 磁性过滤器限制等离子体,以在由负离子等离子体蚀刻的工件上提供等离子体均匀性。 磁性过滤器进一步防止来自热电子等离子体的热电子扩散到负离子等离子体中,同时允许正离子和冷电子从热等离子体扩散到负离子等离子体。 工件上的RF偏压将正离子,电子和/或负离子加速到被蚀刻的工件。
    • 10. 发明授权
    • Radio frequency induction/multipole plasma processing tool
    • 射频感应/多极等离子体处理工具
    • US5304279A
    • 1994-04-19
    • US951978
    • 1992-09-28
    • Dennis K. CoultasJohn H. Keller
    • Dennis K. CoultasJohn H. Keller
    • C23C16/44C23C16/507H01J37/32H01L21/00H01J7/24
    • H01J37/321C23C16/4404C23C16/507H01J37/32688
    • A dry processing apparatus for plasma etching or deposition includes a chamber for plasma processing having an external wall for housing a work piece with a surface to be plasma processed. A source of an induction field is located outside the chamber on its opposite side from the work piece. A radio frequency induction field applied to the chamber generates a plasma. The plasma is confined within the external wall in the chamber by magnetic dipoles providing a surface magnetic field for confining the plasma. The surface magnetic field is confined to the space adjacent to the external wall. An R.F. generator provides an R.F. generated bias to the work piece. The chamber is lined with a material inert to a plasma or noncontaminating to the work piece, and the induction source in the form of a spiral or involute shaped induction coil is located on the exterior of the liner material on the opposite side of the chamber from the work piece. Distribution of gas to the chamber is uniform because a manifold located about the periphery of the chamber and an orifice formed by the surface of the chamber and the manifold admits gas from the manifold into the chamber at a uniform pressure about the periphery of the cover of the chamber.
    • 用于等离子体蚀刻或沉积的干式处理装置包括用于等离子体处理的室,其具有用于容纳待加工等离子体表面的工件的外壁。 感应场源位于腔室的与工件相对的一侧的外侧。 施加到室的射频感应场产生等离子体。 等离子体通过提供用于限制等离子体的表面磁场的磁偶极子被限制在室内的外壁内。 表面磁场被限制在与外壁相邻的空间。 一个R.F. 发电机提供R.F. 产生工件偏差。 腔室内衬有对等离子体惰性或不污染工件的材料,螺旋形或渐开线形感应线圈形式的感应源位于衬套材料的外侧,与腔室相反侧 工件。 气体到腔室的分布是均匀的,因为位于腔室周边的歧管和由腔室的表面和歧管形成的孔口将歧管的气体以围绕盖的周边的均匀压力允许 房间。