Title :
High-K metal gate contact process optimization for yield improvement via innovative defect inspection technique
Author :
Lan, Polly ; Jung Yan Yang ; Chen, Gang ; Pai, White ; Lin, Man ; Hsieh, Ang-Chih ; Chen, S. ; Huang, Edward ; Cheng, Hao-Chien ; Kwok Ng
Author_Institution :
Defect Manage. Dept., United Microelectron. Corp., Tainan, Taiwan
Abstract :
High-K metal gate processes induce new process and wafer defect inspection challenges compared with traditional poly silicon. Mechanisms of two systematic yield-limiting defects at the contact loop process step are discussed. In addition, an innovative method of defect detection and contact process improvement for 28nm high-K metal gate process ramping is shared. The defect inspection strategy involved the use of e-Beam, broadband plasma optical and laser scanning optical inspectors. The new defect detection and process improvement method has demonstrated faster time to results with >90% defect reduction and a SRAM yield gain of >20%.
Keywords :
SRAM chips; electrical contacts; electron beams; high-k dielectric thin films; inspection; integrated circuit yield; optical scanners; SRAM yield gain; broadband plasma optical inspectors; contact loop process step; contact process improvement; defect detection improvement; e-beam inspectors; high-K metal gate contact process optimization; innovative defect inspection technique; innovative method; laser scanning optical inspectors; process inspection; size 28 nm; systematic yield-limiting defects; wafer defect inspection; yield improvement; High K dielectric materials; Inspection; Random access memory; Sensitivity; Systematics; Throughput; Tungsten; Systematic yield-limiting defects; broadband plasma (BBP); electron beam (e-beam); inspection strategy; laser scanning (LS);
Conference_Titel :
Advanced Semiconductor Manufacturing Conference (ASMC), 2014 25th Annual SEMI
Conference_Location :
Saratoga Springs, NY
DOI :
10.1109/ASMC.2014.6846964
