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Self-Adaptive Halogen Treatment to Improve Photoresist Pattern and Magnetoresistive Random Access Memory (MRAM) Device Uniformity

机译：自适应卤素处理可改善光致抗蚀剂图案和磁阻随机存取存储器（MRAM）设备的均匀性

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摘要

A process flow for shrinking a critical dimension (CD) in photoresist features and reducing CD non-uniformity across a wafer is disclosed. A photoresist pattern is treated with halogen plasma to form a passivation layer with thickness (t1) on feature sidewalls, and thickness (t2) on the photoresist top surface where t2t1. Thereafter, an etch based on O₂, or O₂with a fluorocarbon or halogen removes the passivation layer and shrinks the CD. The passivation layer slows the etch such that photoresist thickness is maintained while CD shrinks to a greater extent for features having a width (d1) than on features having width (d2) where d1d2. Accordingly, CD non-uniformity is reduced from 2.3% to 1% when d2 is 70 nm and is shrunk to 44 nm after the aforementioned etch. After a second etch through a MTJ stack to form MTJ cells, CD non-uniformity is maintained at 1%.

机译：公开了用于缩小光刻胶特征中的临界尺寸（CD）并减小整个晶片上的CD不均匀性的工艺流程。用卤素等离子体处理光致抗蚀剂图案，以在特征侧壁上形成厚度为（t 1 ）并在光致抗蚀剂顶面上形成厚度为（t 2 ）的钝化层，其中t 2> t 1 。此后，基于O _{2 或O _{2 的碳氟化合物或卤素进行蚀刻，可以去除钝化层并使CD收缩。钝化层减慢了蚀刻速度，使得与具有宽度（d 2 的特征相比，具有宽度（d 1 ）的特征在CD收缩更大的同时，CD的收缩程度更大。），其中d 1> d 2 。因此，当d B 2为70nm时，CD的不均匀性从2.3％降低到1％，并且在前述蚀刻之后缩小到44nm。在通过MTJ堆栈进行第二次蚀刻以形成MTJ单元后，CD的不均匀度保持在1％。}} 展开▼

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公开/公告号US2019339616A1

专利类型

公开/公告日2019-11-07

原文格式PDF

申请/专利权人 TAIWAN SEMICONDUCTOR MANUFACTURING COMPANY LTD.;
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申请/专利号US201916516628

发明设计人 YI YANG;DONGNA SHEN;JESMIN HAQ;YU-JEN WANG;
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申请日2019-07-19

分类号G03F7/004;H01J37/32;

国家 US

入库时间 2022-08-21 12:08:02

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机译：自适应卤素处理可改善光致抗蚀剂图案和磁阻随机存取存储器（MRAM）设备的均匀性

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