Title :
Advanced EB-cure process and equipment for low-k dielectric
Author :
Onishi, Tadashi ; Nagaseki, Kazuya ; Shimada, Miyoko ; Miyajima, Hideshi ; Nakata, Rempei ; Yamaguchi, Masanori ; Murase, Jun ; Hata, Hiroshige
Author_Institution :
Tokyo Electron AT Ltd., Japan
Abstract :
Recently IC makers have requested single wafer processes because the number of wafers in 1 lot is small and the size of the wafers are larger. Usually spin on low-k material is used by the furnace (FNC) for long time thermal cure process. A new electron beam (EB) cure equipment and process are developed to improve the mechanical strength of low-k dielectric, to reduce the time of cure process and to reduce thermal budget. By EB curing, JSR LKD (low k dielectric) material (k = 2.9) becomes 1.6 times stronger than conventional film. EB cure also shows considerable merit over FNC in cure time and power consumption for small batch size processing. For single wafer processing, the cure time is reduced from 30 minutes to 2 minutes. The power consumption is less than half of the FNC case for 25 wafer processing. Electric charge up damage is measured and proved not much of a drawback for devices
Keywords :
batch processing (industrial); dielectric thin films; electron beam applications; integrated circuit interconnections; large scale integration; mechanical strength; 2 min; advanced EB-cure process; cure process time; electric charge up damage; low-k dielectric; mechanical strength; power consumption; single wafer process; small batch size processing; thermal budget; Cities and towns; Cooling; Curing; Current measurement; Dielectric devices; Dielectric materials; Electron beams; Energy consumption; Furnaces; Throughput;
Conference_Titel :
Semiconductor Manufacturing Symposium, 2001 IEEE International
Conference_Location :
San Jose, CA
Print_ISBN :
0-7803-6731-6
DOI :
10.1109/ISSM.2001.962978
