公开(公告)号：US20240170254A1

公开(公告)日：2024-05-23

申请号：US17991379

申请日：2022-11-21

Applicant: Applied Materials, Inc.

Inventor： Jianming Fu ,  Tza-Jing Gung ,  Sanjeev Baluja ,  Haitao Wang ,  Mandyam Sriram ,  Srinivas Gandikota ,  Steven V. Sansoni

IPC: H01J37/32 ,  C23C16/455 ,  C23C16/509

CPC classification number: H01J37/3211 ,  C23C16/45536 ,  C23C16/45544 ,  C23C16/509 ,  H01J37/32715 ,  H01J2237/332

Abstract: Embodiments of the disclosure are directed to PEALD batch processing chambers. Some embodiments are directed to processing chambers having one or more inductively coupled plasma (ICP) coils electrically connected to at least one RF power source. Some embodiments are directed to processing chambers having a wafer cassette comprising a plurality of platforms, each platform configured to support at least one wafer for processing, and one or more RF power sources electrically connected to the plurality of platforms in the wafer cassette. In some embodiments, the plurality of platforms have a first set of electrodes having a first polarity and a second set of electrodes having a second polarity, and one or more RF power sources electrically connected to the plurality of platforms in the wafer cassette.

公开(公告)号：US10047430B2

公开(公告)日：2018-08-14

申请号：US14205260

申请日：2014-03-11

Applicant: Applied Materials, Inc.

Inventor： Peijun Ding ,  Rong Tao ,  Zheng Xu ,  Daniel C. Lubben ,  Suraj Rengarajan ,  Michael A. Miller ,  Arvind Sundarrajan ,  Xianmin Tang ,  John C. Forster ,  Jianming Fu ,  Roderick C. Mosely ,  Fusen Chen ,  Praburam Gopalraja

IPC: C23C14/34 ,  H01J37/34 ,  C23C14/04 ,  C23C14/35 ,  C23C14/56 ,  H01J37/32 ,  H01L21/285 ,  H01L21/768

CPC classification number: C23C14/046 ,  C23C14/345 ,  C23C14/3457 ,  C23C14/35 ,  C23C14/358 ,  C23C14/564 ,  C23C14/568 ,  H01J37/321 ,  H01J37/3402 ,  H01J37/3408 ,  H01J37/3441 ,  H01J2237/3327 ,  H01L21/2855 ,  H01L21/76805 ,  H01L21/76814 ,  H01L21/76843 ,  H01L21/76844 ,  H01L21/76846 ,  H01L21/76862 ,  H01L21/76865 ,  H01L21/76868 ,  H01L21/76871 ,  H01L21/76873 ,  H01L21/76876 ,  H01L21/76877 ,  H01L2221/1089

Abstract: A magnetron sputter reactor for sputtering deposition materials such as tantalum, tantalum nitride and copper, for example, and its method of use, in which self-ionized plasma (SIP) sputtering and inductively coupled plasma (ICP) sputtering are promoted, either together or alternately, in the same or different chambers. Also, bottom coverage may be thinned or eliminated by ICP resputtering in one chamber and SIP in another. SIP is promoted by a small magnetron having poles of unequal magnetic strength and a high power applied to the target during sputtering. ICP is provided by one or more RF coils which inductively couple RF energy into a plasma. The combined SIP-ICP layers can act as a liner or barrier or seed or nucleation layer for hole. In addition, an RF coil may be sputtered to provide protective material during ICP resputtering. In another chamber an array of auxiliary magnets positioned along sidewalls of a magnetron sputter reactor on a side towards the wafer from the target. The magnetron preferably is a small, strong one having a stronger outer pole of a first magnetic polarity surrounding a weaker outer pole of a second magnetic polarity and rotates about the central axis of the chamber. The auxiliary magnets preferably have the first magnetic polarity to draw the unbalanced magnetic field component toward the wafer. The auxiliary magnets may be either permanent magnets or electromagnets.