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초록
Herein, TaN thin films were deposited using direct current (DC) magnetron sputtering enhanced by side magnets. The produced TaN films were optimized to be used as diffusion barriers for backend-of-line (BEOL) microelectronics. The side magnets were strategically placed to control magnetic field distribution, enabling precise tuning of the etch-to-deposition ratios and the Ta/TaN thickness profiles. TaN films were deposited on silicon substrates at N2 flow rates of 5-54 sccm, and they were characterized using X-ray diffraction (XRD), X-ray photoelectron spectroscopy (XPS), atomic force microscopy, and time-of-flight secondary ion mass spectrometry (ToF-SIMS). The optimized N2 flow rates were determined to be 10-18 sccm. These flow rates along with RF bias and magnetic field control improved the step coverage and densification for high-aspect-ratio trenches. XRD and XPS revealed a transition from metallic beta-Ta to cubic TaN, forming a nitrogen-rich phase with remarkable barrier properties. ToF-SIMS depth profiling indicated that the TaN layer suppressed Cu diffusion under thermal stress (345 degrees C; 5 min), confirming the robustness of the TaN layer in Cu-Mn/Co/Ta/TaN stacks. Integrating a side magnet with the sputtering system enhanced plasma confinement and film uniformity, thereby advancing the development of Ta/TaN deposition. These findings highlight the potential of magnetic field control in sputtering systems, offering valuable insights into diffusion-barrier technology for next-generation BEOL processes.
키워드
- 제목
- Fabrication of Ta/TaN diffusion-barrier thin films using DC magnetron sputtering
- 저자
- Jeong, Byeong Hwa; Kim, Dong Woo; Lee, So Hyun; Kang, Chae Hyun; Long, Wen; Oh, Do Hyun; Jang, Yong Seok; Aoyagi, Toshiya; Taura, Yasuyuki; Kokaze, Yutaka; Lee, Eung Joon; Lee, Sang Ho; Yeom, Geun Young
- 발행일
- 2025-12-15
- 유형
- Article
- 저널명
- Thin Solid Films
- 권
- 832