Infinite Selectivity Etching Process of Silicon Nitride to ArF PR Using Dual-frequency $CH_2F_2/H_2/Ar$ Capacitively Coupled Plasmas
Dual-frequency $CH_2F_2/H_2/Ar$ capacitively coupled plasma를 이용한 실리콘질화물과 ArF PR의 무한 선택비 식각 공정
박창기;이춘희;김희대;이내응;
Park, Chang-Ki;Lee, Chun-Hee;Kim, Hui-Tae;Lee, Nae-Eung;
성균관대학교 신소재공학부;
School of Advanced Materials Science & Engineering and Center for Advanced Plasma Surface Technology, Sungkyunkwan University;
Process window for infinite etch selectivity of silicon nitride $(Si_3N_4)$ layers to ArF photoresist (PR) was investigated in dual frequency superimposed capacitive coupled plasma (DFS-CCP) by varying the process parameters such as low frequency power $(P_{LF})$, $CH_2F_2$ and $H_2$ flow rate in $CH_2F_2/H_2/Ar$ plasma. It was found that infinite etch selectivities of $Si_3N_4$ layers to the ArF PR on both blanket and patterned wafers can be obtained for certain gas flow conditions. The etch selectivity was increased to the infinite values as the $CH_2F_2$ flow rate increases, while it was decreased from the infinite etch selectivity as the $H_2$ flow rate increased. The preferential chemical reaction of the hydrogen with the carbon in the polymer film and the nitrogen on the $Si_3N_4$ surface leading to the formation of HCN etch by-products results in a thinner steady-state polymer and, in turn, to continuous $Si_3N_4$ etching, due to enhanced $SiF_4$ formation, while the polymer was deposited on the ArF photoresist surface.