Title :
Etch process optimization and electrical improvement in TiN hard mask ultra-low k interconnection
Author :
Chang, Chih-Yang ; Kang, Sean ; Kao, C.L. ; Bekiaris, Nikos ; Ching, Chi ; Pu, Bryan ; Lill, Throsten
Abstract :
Presents a collection of slides covering the following topics: We have demonstrated the TiN hard mask etching process key nodes of M1 and dual-damascene applications. N2 IGI can help to clean out the polymer resides in the via chamfer. Movable gap is one of key nodes to tune the C-E uniformity. Decreasing cathode temperature would shrink the BCD of via. M1 and M2 trench BCD have excellent uniformity performance which are 1.3 nm and 1.8 nm of 3-sigma, respectively. N2/02 post etch treatment can improve M1 trench electrical yield up to 14% compare to C02 PET. The yield of the 1 million via chain with dual damascene etch process is over 97% after diluted HF solution clean. There is no obvious plasma damage on ULK film after etch process. AMAT Producer twin-chamber is capable to etch oxide wafers and TiN applications with 02 ICC and Cl2 ICC.
Keywords :
etching; masks; optimisation; titanium compounds; TiN; electrical improvement; etch process optimization; hard mask; ultra-low k interconnection; Dielectrics; Hardware; Materials; Process control; Radio frequency; Throughput; Tin;
Conference_Titel :
Semiconductor Manufacturing (ISSM) and e-Manufacturing and Design Collaboration Symposium (eMDC), 2011 International Symposium on
Conference_Location :
Hsinchu
Print_ISBN :
978-1-4577-1647-8
