Title :
Low resistance wiring and 2Xnm void free fill with CVD Ruthenium liner and DirectSeedTM copper
Author :
Rullan, Jonathan ; Ishizaka, Tadahiro ; Cerio, Frank ; Mizuno, Shigeru ; Mizusawa, Yasushi ; Ponnuswamy, Thomas ; Reid, Jon ; McKerrow, Andrew ; Yang, Chih-Chao
Author_Institution :
TEL Technol. Center, America, LLC, Albany, NY, USA
Abstract :
Chemical vapor deposited (CVD) Ruthenium liners and DirectSeedTM (DS) copper were used with advanced Electrofill processes to provide lower resistance wiring compared to results using CVD Ru and conventional physical vapor deposited (PVD) Cu seed for back end of line (BEOL) structures. Different annealing temperatures and simulated BEOL thermal stress builds were used to show the difference in resistance. The grain size was also compared to show that the Ru/DS process had larger grains than the Ru/flash-Cu (F-Cu) seed. To further show the advantage of the Ru/DS seed process as a solution for future generations, 2X nm trenches were shown to have complete gap fill and thereby eliminating the need for conventional PVD Cu seed.
Keywords :
annealing; chemical vapour deposition; copper; interconnections; ruthenium; thermal stresses; wiring; CVD ruthenium liner; Cu; DirectSeed copper; Ru; advanced electrofill processes; annealing temperatures; back end of line structure; chemical vapor deposited ruthenium liners; low resistance wiring; physical vapor deposited Cu; simulated BEOL thermal stress; Atherosclerosis; Chemical processes; Chemical vapor deposition; Copper; Grain size; Simulated annealing; Temperature; Thermal resistance; Thermal stresses; Wiring;
Conference_Titel :
Interconnect Technology Conference (IITC), 2010 International
Conference_Location :
Burlingame, CA
Print_ISBN :
978-1-4244-7676-3
DOI :
10.1109/IITC.2010.5510705
